7265NG Intel Dual Band Wireless-AC 7265 RF Exposure Info RF Exposure SAR Report Intel Mobile Communications

Intel Mobile Communications Intel Dual Band Wireless-AC 7265

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802 N. Twin Oaks Valley Road, Suite 105 • San Marcos, CA 92069 • U.S.A.
TEL (760) 471-2100 • FAX (760) 471-2121
http://www.rfexposurelab.com
CERTIFICATE OF COMPLIANCE
SAR EVALUATION
Intel Mobile Communication
100 Center Point Circle, Suite 200
Columbia, SC 29210
FCC ID:
IC Certificate:
Model(s):
Contains WLAN Model(s):
Test Sample:
Serial Number:
Equipment Type:
Classification:
TX Frequency Range:
Frequency Tolerance:
Maximum RF Output:
Signal Modulation:
Antenna Type:
Application Type:
FCC Rule Parts:
KDB Test Methodology:
Industry Canada:
Maximum SAR Value:
Max. Simultaneous SAR:
Separation Distance:
Dates of Test:
Test Report Number:
March 17-21, 2017
SAR.20170305
PD97265NG (Contains Model 7265NGW, 7265NGW AN, 7265NGW BN, 7265NGW NB)
1000M-7265NG (Contains Model 7265NGW, 7265NGW AN, 7265NGW BN, 7265NGW NB)
TPN-Q185
Intel® Dual Band Wireless-AC 7265 (Model 7265NGW, 7265NGW AN, 7265NGW BN, 7265NGW NB)
Engineering Unit Same as Production
Eng 1, Eng 2
Wireless Module Installed in Notebook/Tablet
Portable Transmitter Next to Body
2412 – 2462 MHz; 5180 – 5320 MHz; 5500 – 5700 MHz; 5745 – 5825 MHz
± 2.5 ppm
2450 MHz (b) – 17.25 dB, 2450 MHz (g) – 17.25 dB, 2450 MHz (n20) – 17.25 dB,
2450 MHz (n40) – 16.25 dB, 5250 MHz (a) – 16.25 dB, 5250 MHz (n20) – 16.25 dB,
5250 MHz (n40) – 16.25 dB, 5250 MHz (ac) – 13.25 dB, 5600 MHz (a) – 16.25 dB,
5600 MHz (n20) – 16.25 dB, 5600 MHz (n40) – 16.25 dB, 5600 MHz (ac) – 16.25 dB,
5800 MHz (a) – 15.75 dB, 5800 MHz (n20) – 15.75 dB, 5800 MHz (n40) – 16.25 dB,
5800 MHz (ac) – 16.25 dB Conducted
DSSS, OFDM
Inpaq, P/N WA-P-LBLB-02-027 (Tx1 & Tx2) and WNC, P/N 81EAA415.G85 (Tx1 & Tx2); PIFA
Antenna
Certification
Part 2, 15C, 15E
KDB 447498 D01 v06, KDB 248227 v02r02, KDB 616217 D04 v01r02
RSS-102 Issue 5, Safety Code 6
1.03 W/kg Reported
1.41 W/kg Reported
5.12 mm
This wireless mobile and/or portable device has been shown to be compliant for localized specific
absorption rate (SAR) for uncontrolled environment/general exposure limits specified in ANSI/IEEE Std.
C95.1-1992 and had been tested in accordance with the measurement procedures specified in IEEE
1528-2013 and IEC 62209-2:2010 (See test report).
I attest to the accuracy of the data. All measurements were performed by myself or were made under my
supervision and are correct to the best of my knowledge and belief. I assume full responsibility for the
completeness of these measurements and vouch for the qualifications of all persons taking them.
RF Exposure Lab, LLC certifies that no party to this application is subject to a denial of Federal benefits
that includes FCC benefits pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C.
853(a).
Testing Cert. # 2387.01
Jay M. Moulton
Vice President
© 2017 RF Exposure Lab, LLC
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Table of Contents
1.
Introduction ........................................................................................................................ 3
SAR Definition [5] ................................................................................................................... 4
2. SAR Measurement Setup ................................................................................................... 5
Robotic System ...................................................................................................................... 5
System Hardware................................................................................................................... 5
System Electronics................................................................................................................. 6
Probe Measurement System .................................................................................................. 6
3. Probe and Dipole Calibration .............................................................................................14
4. Phantom & Simulating Tissue Specifications .....................................................................15
Head & Body Simulating Mixture Characterization ................................................................15
5. ANSI/IEEE C95.1 – 1992 RF Exposure Limits [2] ..............................................................16
Uncontrolled Environment .....................................................................................................16
Controlled Environment .........................................................................................................16
6. Measurement Uncertainty .................................................................................................17
7. System Validation..............................................................................................................18
Tissue Verification .................................................................................................................18
Test System Verification........................................................................................................18
8. SAR Test Data Summary ..................................................................................................19
Procedures Used To Establish Test Signal ...........................................................................19
Device Test Condition ...........................................................................................................19
SAR Data Summary – 2450 MHz Body 802.11b & BT ..........................................................52
SAR Data Summary – 5250 MHz Body 802.11a ...................................................................53
SAR Data Summary – 5600 MHz Body 802.11a ...................................................................54
SAR Data Summary – 5800 MHz Body 802.11a ...................................................................55
SAR Data Summary – Simultaneous Evaluation ...................................................................56
9. Test Equipment List...........................................................................................................57
10.
Conclusion ....................................................................................................................58
11.
References ....................................................................................................................59
Appendix A – System Validation Plots and Data .......................................................................60
Appendix B – SAR Test Data Plots ...........................................................................................70
Appendix C – SAR Test Setup Photos ......................................................................................75
Appendix D – Probe Calibration Data Sheets ............................................................................80
Appendix E – Dipole Calibration Data Sheets ...........................................................................92
Appendix F – Phantom Calibration Data Sheets .....................................................................117
Appendix G – Validation Summary..........................................................................................119
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
1.
Introduction
This measurement report shows compliance of the Intel Mobile Communications Model
7265NGW including family sub-models 7265NGW AN, 7265NGW NB & 7265NGW BN
installed in HP Model TPN-Q185 FCC ID: PD97265NG with FCC Part 2, 1093, ET
Docket 93-62 Rules for mobile and portable devices and IC Certificate: 1000M-7265NG
with RSS102 Issue 5 & Safety Code 6. The FCC have adopted the guidelines for
evaluating the environmental effects of radio frequency radiation in ET Docket 93-62 on
August 6, 1996 to protect the public and workers from the potential hazards of RF
emissions due to FCC regulated portable devices. [1], [6]
The test results recorded herein are based on a single type test of Intel Mobile
Communications Model 7265NGW including family sub-models 7265NGW AN,
7265NGW NB & 7265NGW BN installed in HP Model TPN-Q185 and therefore apply
only to the tested sample.
The test procedures, as described in ANSI C95.1 – 1999 Standard for Safety Levels with
Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to 300
GHz [2], ANSI C95.3 – 2002 Recommended Practice for the Measurement of Potentially
Hazardous Electromagnetic Fields [3], IEEE Std.1528 – 2013 Recommended Practice
[4], and Industry Canada Safety Code 6 Limits of Human Exposure to Radiofrequency
Electromagnetic Fields in the Frequency Range from 3kHz to 300 GHz were employed.
The following table indicates all the wireless technologies operating in the 7265NGW
including family sub-models 7265NGW AN, 7265NGW NB & 7265NGW BN installed in
HP Model TPN-Q185 wireless modem. The table also shows the tolerance for the
power level for each mode.
Band
WLAN – 2.4 GHz
WLAN – 2.4 GHz
WLAN – 5 GHz Band I, II, III, IV
Technology
3GPP
Nominal
Power
dBm
Setpoint
Nominal
Power
dBm
802.11b
802.11g/n(Ch. 6)
802.11a
N/A
N/A
N/A
15.75
15.75
14.75
© 2017 RF Exposure Lab, LLC
Lower
Upper
Tolerance
Tolerance Tolerance
dBm
dBm
dBm
±1.5
±1.5
±1.5
14.25
14.25
13.25
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17.25
17.25
16.25
Report Number: SAR.20170305
SAR Definition [5]
Specific Absorption Rate is defined as the time derivative (rate) of the incremental
energy (dW) absorbed by (dissipated in) an incremental mass (dm) contained in a
volume element (dV) of a given density (ρ).
SAR =
d  dW  d  dW

= 
dt  dm  dt  ρdV



SAR is expressed in units of watts per kilogram (W/kg). SAR can be related to the
electric field at a point by
SAR =
σ | E |2
ρ
where:
σ = conductivity of the tissue (S/m)
ρ = mass density of the tissue (kg/m3)
E = rms electric field strength (V/m)
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
2.
SAR Measurement Setup
Robotic System
These measurements are performed using the DASY52 automated dosimetric
assessment system. The DASY52 is made by Schmid & Partner Engineering AG
(SPEAG) in Zurich, Switzerland and consists of high precision robotics system (Staubli),
robot controller, Intel Core2 computer, near-field probe, probe alignment sensor, and the
generic twin phantom containing the brain equivalent material. The robot is a six-axis
industrial robot performing precise movements to position the probe to the location
(points) of maximum electromagnetic field (EMF) (see Fig. 2.1).
System Hardware
A cell controller system contains the power supply, robot controller teach pendant
(Joystick), and a remote control used to drive the robot motors. The PC consists of the
HP Intel Core2 computer with Windows XP system and SAR Measurement Software
DASY52, A/D interface card, monitor, mouse, and keyboard. The Staubli Robot is
connected to the cell controller to allow software manipulation of the robot. A data
acquisition electronic (DAE) circuit that performs the signal amplification, signal
multiplexing, AD-conversion, offset measurements, mechanical surface detection,
collision detection, etc. is connected to the Electro-optical coupler (EOC). The EOC
performs the conversion from the optical into digital electric signal of the DAE and
transfers data to the PC plug-in card.
Figure 2.1 SAR Measurement System Setup
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
System Electronics
The DAE4 consists of a highly sensitive electrometer-grade preamplifier with autozeroing, a channel and gain-switching multiplexer, a fast 16 bit AD-converter and a
command decoder and control logic unit. Transmission to the PC-card is accomplished
through an optical downlink for data and status information and an optical uplink for
commands and clock lines. The mechanical probe mounting device includes two
different sensor systems for frontal and sidewise probe contacts. They are also used for
mechanical surface detection and probe collision detection. The robot uses its own
controller with a built in VME-bus computer. The system is described in detail in.
Probe Measurement System
The SAR measurements were conducted with the dosimetric probe
EX3DV4, designed in the classical triangular configuration (see Fig.
2.2) and optimized for dosimetric evaluation. The probe is
constructed using the thick film technique; with printed resistive
lines on ceramic substrates. The probe is equipped with an optical
multi fiber line ending at the front of the probe tip. (see Fig. 2.3) It is
connected to the EOC box on the robot arm and provides an
automatic detection of the phantom surface. Half of the fibers are
connected to a pulsed infrared transmitter, the other half to a
synchronized receiver. As the probe approaches the surface, the
reflection from the surface produces a coupling from the
transmitting to the receiving fibers. This reflection increases first
during the approach, reaches maximum and then decreases. If the
probe is flatly touching the surface, the coupling is zero. The
distance of the coupling maximum to the surface is independent of
the surface reflectivity and largely independent of the surface to
probe angle. The DASY52 software reads the reflection during a
software approach and looks for the maximum using a 2nd order
fitting. The approach is stopped at reaching the maximum.
DAE System
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
Probe Specifications
Calibration:
In air from 10 MHz to 6.0 GHz
In brain and muscle simulating tissue at Frequencies of 450 MHz, 835
MHz, 1750 MHz, 1900 MHz, 2450 MHz, 2600 MHz, 3500 MHz, 5200
MHz, 5300 MHz, 5600 MHz, 5800 MHz
Frequency:
10 MHz to 6 GHz
Linearity:
±0.2dB (30 MHz to 6 GHz)
Dynamic:
10 mW/kg to 100 W/kg
Range:
Linearity: ±0.2dB
Dimensions:
Tip length:
Figure 2.2 Triangular Probe Configurations
Overall length: 330 mm
20 mm
Body diameter: 12 mm
Tip diameter: 2.5 mm
Distance from probe tip to sensor center: 1 mm
Figure 2.3 Probe Thick-Film Technique
Application:
SAR Dosimetry Testing
Compliance tests of wireless device
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
Probe Calibration Process
Dosimetric Assessment Procedure
Each probe is calibrated according to a dosimetric assessment procedure described in with
accuracy better than +/- 10%. The spherical isotropy was evaluated with the procedure described in
and found to be better than +/-0.25dB. The sensitivity parameters (Norm X, Norm Y, Norm Z), the
diode compression parameter (DCP) and the conversion factor (Conv F) of the probe is tested.
Free Space Assessment
The free space E-field from amplified probe outputs is determined in a test chamber. This is
performed in a TEM cell for frequencies below 1 GHz, and in a waveguide above 1GHz for free
space. For the free space calibration, the probe is placed in the volumetric center of the cavity at
the proper orientation with the field. The probe is then rotated 360 degrees until the three channels
show the maximum reading. The power density readings equates to 1 mW/cm2.
Temperature Assessment *
E-field temperature correlation calibration is performed in a flat phantom filled with the appropriate
simulated brain tissue. The measured free space E-field in the medium, correlates to temperature
rise in a dielectric medium. For temperature correlation calibration a RF transparent thermistor
based temperature probe is used in conjunction with the E-field probe
where:
where:
SAR is proportional to ΔT / Δt , the initial rate of tissue
heating, before thermal diffusion takes place.
Now it’s possible to quantify the electric field in the simulated tissue by
equating the thermally derived SAR to the E- field;
Figure 2.4 E-Field and Temperature
Measurements at 900MHz
© 2017 RF Exposure Lab, LLC
Figure 2.5 E-Field and Temperature
Measurements at 1800MHz
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Report Number: SAR.20170305
Data Extrapolation
The DASY52 software automatically executes the following procedures to calculate the field units
from the microvolt readings at the probe connector. The first step of the evaluation is a linearization
of the filtered input signal to account for the compression characteristics of the detector diode. The
compensation depends on the input signal, the diode type and the DC-transmission factor from the
diode to the evaluation electronics. If the exciting field is pulsed, the crest factor of the signal must
be known to correctly compensate for peak power. The formula for each channel can be given like
below;
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
Scanning procedure
•
The DASY installation includes predefined files with recommended procedures for
measurements and system check. They are read-only document files and destined as fully
defined but unmeasured masks. All test positions (head or body-worn) are tested with the
same configuration of test steps differing only in the grid definition for the different test
positions.
•
The „reference“ and „drift“ measurements are located at the beginning and end of the batch
process. They measure the field drift at one single point in the liquid over the complete
procedure. The indicated drift is mainly the variation of the DUT’s output power and should
vary max. +/- 5 %.
•
The highest integrated SAR value is the main concern in compliance test applications. These
values can mostly be found at the inner surface of the phantom and cannot be measured
directly due to the sensor offset in the probe. To extrapolate the surface values, the
measurement distances to the surface must be known accurately. A distance error of
0.5mm could produce SAR errors of 6% at 1800 MHz. Using predefined locations for
measurements is not accurate enough. Any shift of the phantom (e.g., slight deformations
after filling it with liquid) would produce high uncertainties. For an automatic and accurate
detection of the phantom surface, the DASY5 system uses the mechanical surface
detection. The detection is always at touch, but the probe will move backward from the
surface the indicated distance before starting the measurement.
•
The „area scan“ measures the SAR above the DUT or verification dipole on a parallel plane
to the surface. It is used to locate the approximate location of the peak SAR with 2D
spline interpolation. The robot performs a stepped movement along one grid axis while the
local electrical field strength is measured by the probe. The probe is touching the surface of
the SAM during acquisition of measurement values. The scan uses different grid spacings
for different frequency measurements. Standard grid spacing for head measurements in
frequency ranges≤ 2GHz is 15 mm in x - and y- dimension. For higher frequencies a finer
resolution is needed, thus for the grid spacing is reduced according the following table:
Area scan grid spacing for different frequency ranges
Frequency range
Grid spacing
≤ 2 GHz
≤ 15 mm
2 – 4 GHz
≤ 12 mm
4 – 6 GHz
≤ 10 mm
Grid spacing and orientation have no influence on the SAR result. For special applications where the
standard scan method does not find the peak SAR within the grid, e.g. mobile phones with flip cover,
the grid can be adapted in orientation. Results of this coarse scan are shown in annex B.
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
•
A „zoom scan” measures the field in a volume around the 2D peak SAR value acquired
in the previous „coarse“ scan. It uses a fine meshed grid where the robot moves the probe
in steps along all the 3 axis (x,y and z-axis) starting at the bottom of the Phantom. The
grid spacing for the cube measurement is varied according to the measured frequency
range, the dimensions are given in the following table:
Zoom scan grid spacing and volume for different frequency ranges
Grid spacing
Grid spacing
Minimum zoom
Frequency range
for x, y axis
for z axis
scan volume
≤ 2 GHz
≤ 8 mm
≤ 5 mm
≥ 30 mm
2 – 3 GHz
≤ 5 mm
≤ 5 mm
≥ 28 mm
3 – 4 GHz
≤ 5 mm
≤ 4 mm
≥ 28 mm
4 – 5 GHz
≤ 4 mm
≤ 3 mm
≥ 25 mm
5 – 6 GHz
≤ 4 mm
≤ 2 mm
≥ 22 mm
DASY is also able to perform repeated zoom scans if more than 1 peak is found during area scan. In this
document, the evaluated peak 1g and 10g averaged SAR values are shown in the 2D-graphics in annex
B. Test results relevant for the specified standard (see section 3) are shown in table form in section 7.
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Report Number: SAR.20170305
Spatial Peak SAR Evaluation
The spatial peak SAR - value for 1 and 10 g is evaluated after the Cube measurements have been
done. The basis of the evaluation are the SAR values measured at the points of the fine cube grid
consisting of all points in the three directions x, y and z. The algorithm that finds the maximal averaged
volume is separated into three different stages.
•
The data between the dipole center of the probe and the surface of the phantom are
extrapolated. This data cannot be measured since the center of the dipole is 1 to 2.7 mm
away from the tip of the probe and the distance between the surface and the lowest
measuring point is about 1 mm (see probe calibration sheet). The extrapolated data from
a cube measurement can be visualized by selecting ‘Graph Evaluated’.
•
The maximum interpolated value is searched with a straight-forward algorithm. Around this
maximum the SAR - values averaged over the spatial volumes (1g or 10 g) are computed
using the 3d-spline interpolation algorithm. If the volume cannot be evaluated (i.e., if a part
of the grid was cut off by the boundary of the measurement area) the evaluation will be
started on the corners of the bottom plane of the cube.
•
All neighboring volumes are evaluated until no neighboring volume with a higher average
value is found.
Extrapolation
The extrapolation is based on a least square algorithm [W. Gander, Computermathematik, p.168180]. Through the points in the first 3 cm along the z-axis, polynomials of order four are
calculated. These polynomials are then used to evaluate the points between the surface and the
probe tip. The points, calculated from the surface, have a distance of 1 mm from each other.
Interpolation
The interpolation of the points is done with a 3d-Spline. The 3d-Spline is composed of three onedimensional splines with the "Not a knot"-condition [W. Gander, Computermathematik, p.141-150] (x,
y and z -direction) [Numerical Recipes in C, Second Edition, p.123ff ].
Volume Averaging
At First the size of the cube is calculated. Then the volume is integrated with the trapezoidal algorithm.
8000 points (20x20x20) are interpolated to calculate the average.
Advanced Extrapolation
DASY uses the advanced extrapolation option which is able to compensate boundary effects on Efield probes.
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Report Number: SAR.20170305
SAM PHANTOM
The SAM Twin Phantom V4.0 is constructed of a fiberglass shell integrated in a wooden table.
The shape of the shell is based on data from an anatomical study designed to determine the
maximum exposure in at least 90% of all users. It enables the dosimetric evaluation of left and
right hand phone usage as well as body mounted usage at the flat phantom region. A cover
prevents the evaporation of the liquid. Reference markings on the Phantom allow the complete
setup of all predefined phantom positions and measurement grids by manually teaching three
points in the robot. (see Fig. 2.6)
Phantom Specification
Phantom:
Shell Material:
Thickness:
SAM Twin Phantom (V4.0)
Vivac Composite
2.0 ± 0.2 mm
Figure 2.6 SAM Twin Phantom
Device Holder for Transmitters
In combination with the SAM Twin Phantom V4.0 the Mounting Device (see Fig. 2.7), enables the
rotation of the mounted transmitter in spherical coordinates whereby the rotation point is the ear
opening. The devices can be easily, accurately, and repeat ably be positioned according to the
FCC, CENELEC, IEC and IEEE specifications. The device holder can be locked at different
phantom locations (left head, right head, flat phantom).
Note: A simulating human hand is not used due to the complex
anatomical and geometrical structure of the hand that may
produce infinite number of configurations. To produce the worstcase condition (the hand absorbs antenna output power), the
hand is omitted during the tests.
Figure 2.7 Mounting Device
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Report Number: SAR.20170305
3.
Probe and Dipole Calibration
See Appendix D and E.
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Report Number: SAR.20170305
4.
Phantom & Simulating Tissue Specifications
Head & Body Simulating Mixture Characterization
The head and body mixtures consist of the material based on the table listed below. The
mixture is calibrated to obtain proper dielectric constant (permittivity) and conductivity of
the desired tissue. Body tissue parameters that have not been specified in IEEE15282013 are derived from the issue dielectric parameters computed from the 4-Cole-Cole
equations.
Table 4.1 Typical Composition of Ingredients for Tissue
Simulating Tissue
Ingredients
2450 MHz
Body
5250 MHz
Body
5600 MHz
Body
5785 MHz
Body
Mixing Percentage
Water
73.20
Sugar
0.00
Salt
0.04
HEC
0.00
Bactericide
0.00
DGBE
26.70
Dielectric Constant Target
52.70
48.96
48.47
48.25
Conductivity (S/m) Target
1.95
5.35
5.77
5.96
© 2017 RF Exposure Lab, LLC
Proprietary Mixture
Procured from Speag
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Report Number: SAR.20170305
5.
ANSI/IEEE C95.1 – 1992 RF Exposure Limits [2]
Uncontrolled Environment
Uncontrolled Environments are defined as locations where there is the exposure of
individuals who have no knowledge or control of their exposure. The general
population/uncontrolled exposure limits are applicable to situations in which the general
public may be exposed or in which persons who are exposed as a consequence of their
employment may not be made fully aware of the potential for exposure or cannot
exercise control over their exposure. Members of the general public would come under
this category when exposure is not employment-related; for example, in the case of a
wireless transmitter that exposes persons in its vicinity.
Controlled Environment
Controlled Environments are defined as locations where there is exposure that may be
incurred by persons who are aware of the potential for exposure, (i.e. as a result of
employment or occupation). In general, occupational/controlled exposure limits are
applicable to situations in which persons are exposed as a consequence of their
employment, who have been made fully aware of the potential for exposure and can
exercise control over their exposure. This exposure category is also applicable when the
exposure is of a transient nature due to incidental passage through a location where the
exposure levels may be higher than the general population/uncontrolled limits, but the
exposed person is fully aware of the potential for exposure and can exercise control over
his or her exposure by leaving the area or by some other appropriate means.
Table 5.1 Human Exposure Limits
UNCONTROLLED ENVIRONMENT
General Population
(W/kg) or (mW/g)
CONTROLLED ENVIROMENT
Professional Population
(W/kg) or (mW/g)
SPATIAL PEAK SAR 1
Head
1.60
8.00
SPATIAL AVERAGE SAR 2
Whole Body
0.08
0.40
SPATIAL PEAK SAR 3
Hands, Feet, Ankles, Wrists
4.00
20.00
The Spatial Peak value of the SAR averaged over any 1 gram of tissue (defined as a tissue volume in the shape of
a cube) and over the appropriate averaging time.
The Spatial Average value of the SAR averaged over the whole body.
The Spatial Peak value of the SAR averaged over any 10 grams of tissue (defined as a tissue volume in the shape
of a cube) and over the appropriate averaging time.
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Report Number: SAR.20170305
6.
Measurement Uncertainty
Measurement uncertainty table is not required per KDB 865664 D01 v01r04 section 2.8.2 page
12. SAR measurement uncertainty analysis is required in the SAR report only when the highest
measured SAR in a frequency band is ≥ 1.5 W/kg for 1-g SAR. The equivalent ratio (1.5/1.6)
should be applied to extremity and occupational exposure conditions. The highest reported
value is less than 1.5 W/kg. Therefore, the measurement uncertainty table is not required.
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Report Number: SAR.20170305
7.
System Validation
Tissue Verification
Table 7.1 Measured Tissue Parameters
Date(s)
Liquid Temperature (˚C)
Dielectric Constant: ε
Conductivity: σ
2450 MHz Body
Mar. 17, 2017
Target
Measured
52.70
52.64
1.95
1.96
5600 MHz Body
Mar. 20, 2017
Target
Measured
48.47
48.43
5.77
5.74
20.0
Date(s)
Liquid Temperature (˚C)
Dielectric Constant: ε
Conductivity: σ
20.0
5200 MHz Body
Mar. 20, 2017
Target
Measured
49.01
48.93
5.30
5.30
5800 MHz Body
Mar. 20, 2017
Target
Measured
48.20
48.13
6.00
5.97
See Appendix A for data printout.
Test System Verification
Prior to assessment, the system is verified to the ±10% of the specifications at the test
frequency by using the system kit. Power is normalized to 1 watt. (Graphic Plots
Attached)
Table 7.2 System Dipole Validation Target & Measured
17-Mar-2017
20-Mar-2017
20-Mar-2017
20-Mar-2017
Test
Frequency
Targeted
SAR1g
(W/kg)
Measure
SAR1g (W/kg)
Tissue Used
for Verification
2450 MHz
5200 MHz
5600 MHz
5800 MHz
52.10
77.40
82.60
78.80
52.00
79.60
83.10
78.60
Body
Body
Body
Body
See Appendix A for data plots.5
Deviation
Target and
Fast SAR
to SAR (%)
- 0.19
+ 2.84
+ 0.61
- 0.25
Plot
Number
Spacer
3D Probe positioner
Field probe
Flat Phantom
Dipole
Dir.Coupler
Signal
Generato
Amp
Low
Pass
3dB
Cable
Att3
Att1
PM1
Att2
PM3
PM2
Figure 7.1 Dipole Validation Test Setup
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Report Number: SAR.20170305
8.
SAR Test Data Summary
See Measurement Result Data Pages
See Appendix B for SAR Test Data Plots.
See Appendix C for SAR Test Setup Photos.
Procedures Used To Establish Test Signal
The device was either placed into simulated transmit mode using the manufacturer’s test
codes or the actual transmission is activated through a base station simulator or similar
equipment. See data pages for actual procedure used in measurement.
Device Test Condition
In order to verify that the device was tested at full power, conducted output power
measurements were performed before and after each SAR measurement to confirm the
output power unless otherwise noted. If a conducted power deviation of more than 5%
occurred, the test was repeated. The power drift of each test is measured at the start of
the test and again at the end of the test. The drift percentage is calculated by the
formula ((end/start)-1)*100 and rounded to three decimal places. The drift percentage is
calculated into the resultant SAR value on the data sheet for each test.
The EUT was tested in the tablet configuration of the device. The EUT was tested in on
all sides of the device where the antenna was within 25 mm of that side. All
measurements for the tablet condition were conducted with the side of the device in
direct contact with the phantom. For sides of the antenna which were not measured in
this report, the SAR was conduct on the module in the modular approval with the
maximum distance of 8 mm on all six sides of the antenna. Therefore, the requirements
mentioned in RSS-102 Supplementary Procedures (SPR)-001 – SAR Testing
Requirements with Regards to Bystanders for Laptop Type Computers with Antennas
Built-In on Display Screen (Laptop/Tablet Mode) are covered.
The Bluetooth transmitter does simultaneously transmit with the WiFi transmitter. When
the BT is turned on, it transmits on Aux and the WiFi transmits on Main. Simultaneous
transmission is evaluated on page 52.
The main antenna was evaluated for stand-alone SAR per RSS-102 Issue 5 for BT.
Please see data sheet summary on page 52.
The data rates used when evaluating the WiFi transmitter were the lowest data rates for
each mode. The device was operating at its maximum output power at the lowest data
rate for all measurements.
The tablet was using the Intel test utility DRTU Version 1.7.7-02972 and the device
driver was version 18.12.0.1.
The antenna was on a minimum of 10 cm of Styrofoam during each test. The following
is a pictorial drawing of the locations and separation distances.
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Report Number: SAR.20170305
Location and Separation Distances Laptop Mode Diagrams
Location and Separation Distances Tablet Mode Diagrams
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Report Number: SAR.20170305
Band
Mode
802.11b
802.11g
Bandwidth
Frequency
Channel
(MHz)
(MHz)
20
20
2450 MHz
802.11n
802.11n
802.11a
20
40
20
5.15-5.25 GHz
802.11n
802.11n
802.11ac
802.11a
20
40
80
20
5.25-5.35 GHz
802.11n
802.11n
802.11ac
20
40
80
© 2017 RF Exposure Lab, LLC
10
10
36
40
44
48
36
40
44
48
36
40
44
48
36
40
44
48
38
46
38
46
2417
2437
2457
2417
2437
2457
2422
2437
2452
2422
2437
2452
2422
2437
2452
2422
2437
2452
2422
2437
2452
2422
2437
2452
5180
5200
5220
5240
5180
5200
5220
5240
5180
5200
5220
5240
5180
5200
5220
5240
5190
5230
5190
5230
42
5210
52
56
60
64
52
56
60
64
52
56
60
64
52
56
60
64
54
62
54
62
5260
5280
5300
5320
5260
5280
5300
5320
5260
5280
5300
5320
5260
5280
5300
5320
5270
5310
5270
5310
58
5290
Data
Rate
Antenna
Power
(dBm)
Chain A
1 Mbps
Chain B
Chain A
6 Mbps
Chain B
Chain A
HT4
Chain B
Chain A
HT4
Chain B
Chain A
6 Mbps
Chain B
Chain A
HT4
Chain B
HT4
Chain A
HT4
Chain B
VHT6
Chain A
Chain B
Chain A
6 Mbps
Chain B
Chain A
HT4
Chain B
HT4
Chain A
HT4
Chain B
VHT6
Chain A
Chain B
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17 16
17.25
17.21
17.11
17.24
17.19
17.05
17.14
17.12
17.09
17.13
17.11
17.02
17.12
17.08
17.04
17.16
17.15
13.21
16.19
12.23
13.19
16.22
12.14
13.71
14.69
14.75
14.72
13.68
14.71
14.75
14.70
13.73
14.70
14.75
14.64
13.65
14.69
14.72
14.71
11.68
16.22
13.21
16.20
13.21
13.18
15.72
15.75
15.75
13.21
16.19
16.22
16.24
13.19
15.68
15.64
15.70
13.18
16.11
16.18
16.21
13.16
16.15
13.21
16.16
13.17
13.16
13.12
Report Number: SAR.20170305
Band
Mode
Bandwidth
Frequency
Channel
(MHz)
(MHz)
802.11a
20
5600 MHz
802.11n
802.11n
20
40
20
100
104
108
112
116
120
124
128
132
136
140
100
104
108
112
116
120
124
128
132
136
140
100
104
108
112
116
120
124
128
132
136
140
100
104
108
112
116
120
124
128
132
136
140
102
110
118
126
134
102
110
118
126
134
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5510
5550
5580
5610
5670
5510
5550
5580
5610
5670
144
5720
Data
Rate
142
5710
80
106
122
138
106
122
138
5530
5610
5690
5530
5610
5690
802.11ac
© 2017 RF Exposure Lab, LLC
Power
(dBm)
Chain A
6 Mbps
Chain B
Chain A
HT4
Chain B
Chain A
HT4
Chain B
VHT0
40
Antenna
Chain A
Chain B
Chain A
Chain B
Chain A
VHT6
Chain B
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13 21
15.68
15.71
15.73
15.75
15.72
15.75
15.65
15.69
15.66
12.71
13.23
16.22
16.18
16.20
16.25
16.14
16.25
16.18
16.19
16.14
12.72
13.21
15.69
15.64
15.66
15.70
15.72
15.63
15.65
15.73
15.61
12.74
13.22
16.16
16.19
16.15
16.12
16.11
16.17
16.20
16.21
16.14
12.72
13.21
16.18
16.19
16.12
16.20
13.72
16.20
16.15
16.13
16.18
15.43
14.96
16.44
16.46
13.21
16.19
16.22
13.18
16.21
16.23
Report Number: SAR.20170305
Band
Mode
Bandwidth
Frequency
Channel
(MHz)
(MHz)
802.11a
20
5800 MHz
802.11n
20
802.11n
40
802.11ac
80
© 2017 RF Exposure Lab, LLC
149
153
157
161
165
149
153
157
161
165
149
153
157
161
165
149
153
157
161
165
151
159
151
159
5745
5765
5785
5805
5825
5745
5765
5785
5805
5825
5745
5765
5785
5805
5825
5745
5765
5785
5805
5825
5755
5795
5755
5795
155
5775
Data
Rate
Antenna
Power
(dBm)
Chain A
6 Mbps
Chain B
Chain A
HT8
Chain B
Chain A
HT8
Chain B
VHT6
Chain A
Chain B
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15 68
15.64
15.75
15.72
15.75
15.15
15.19
15.25
15.21
15.25
15.65
15.64
15.69
15.71
15.67
15.14
15.19
15.21
15.18
15.20
16.21
16.18
16.14
16.16
16.15
16.19
Report Number: SAR.20170305
Figure 8.1 Test Reduction Table – 2.4 GHz Main Inpaq
Mode
Side
Required
Channel
Tested/Reduced
1 – 2412 MHz
Reduced1
6 – 2437 MHz
Tested
11 – 2462 MHz
Reduced1
1 – 2412 MHz
Reduced1
802.11b
Top
6 – 2437 MHz
Tested
11 – 2462 MHz
Reduced1
1 – 2412 MHz
Reduced4
Left, Right,
6 – 2437 MHz
Reduced4
Bottom
11 – 2462 MHz
Reduced4
1 – 2412 MHz
Reduced3
Back
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
802.11g
Top
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Left, Right,
6 – 2437 MHz
Reduced3
Bottom
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Back
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
802.11n
Top
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Left, Right,
6 – 2437 MHz
Reduced3
Bottom
11 – 2462 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS specified maximum output power
and the adjusted SAR is ≤ 1.2 W/kg, SAR is not required per KDB 248227 D01 v02r02 section 5.2.2 2) page 10.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Back
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 53.1 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√2.462)]*50 mm}]+[{62.3-50 mm}*10]=218 mW which is greater than 53.1 mW
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Report Number: SAR.20170305
Figure 8.2 Test Reduction Table – 2.4 GHz Aux Inpaq
Mode
Side
Required
Channel
Tested/Reduced
1 – 2412 MHz
Reduced1
6 – 2437 MHz
Tested
11 – 2462 MHz
Reduced1
1 – 2412 MHz
Reduced1
802.11b
Top
6 – 2437 MHz
Tested
11 – 2462 MHz
Reduced1
1 – 2412 MHz
Reduced4
Left, Right,
6 – 2437 MHz
Reduced4
Bottom
11 – 2462 MHz
Reduced4
1 – 2412 MHz
Reduced3
Back
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
802.11g
Top
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Left, Right,
6 – 2437 MHz
Reduced3
Bottom
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Back
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
802.11n
Top
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Left, Right,
6 – 2437 MHz
Reduced3
Bottom
11 – 2462 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS specified maximum output power
and the adjusted SAR is ≤ 1.2 W/kg, SAR is not required per KDB 248227 D01 v02r02 section 5.2.2 2) page 10.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Back
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 53.1 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√2.462)]*50 mm}]+[{62.3-50 mm}*10]=218 mW which is greater than 53.1 mW
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Page 25 of 119
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Report Number: SAR.20170305
Figure 8.3 Test Reduction Table – 5.1 GHz Main Inpaq
Mode
Side
Back
802.11a
5150 MHz
Top
Left, Right,
Bottom
Back
802.11n
5150 MHz
Top
Left, Right,
Bottom
Required
Channel
Tested/Reduced
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
42 – 5210 MHz
42 – 5210 MHz
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Back
Top
Left, Right,
42 – 5210 MHz
Reduced2
Bottom
Reduced1 – When the adjusted SAR is ≤ 1.2 W/kg, SAR is not required for the UNII-1 with the same or lower maximum output
power in that test configuration per KDB 248227 D01 v02r02 section 5.3.1 1) page 11.
Reduced2 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
802.11ac
5210 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.24)]*50 mm}]+[{62.3-50 mm}*10]=188 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 26 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.4 Test Reduction Table – 5.1 GHz Aux Inpaq
Mode
Side
Back
802.11a
5150 MHz
Top
Left, Right,
Bottom
Back
802.11n
5150 MHz
Top
Left, Right,
Bottom
Required
Channel
Tested/Reduced
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
42 – 5210 MHz
42 – 5210 MHz
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Back
Top
Left, Right,
42 – 5210 MHz
Reduced2
Bottom
Reduced1 – When the adjusted SAR is ≤ 1.2 W/kg, SAR is not required for the UNII-1 with the same or lower maximum output
power in that test configuration per KDB 248227 D01 v02r02 section 5.3.1 1) page 11.
Reduced2 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
802.11ac
5210 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.24)]*50 mm}]+[{62.3-50 mm}*10]=188 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 27 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.5 Test Reduction Table – 5.2 GHz Main Inpaq
Mode
Side
Back
802.11a
5250 MHz
Top
Left, Right,
Bottom
Back
802.11n
5250 MHz
Top
Left, Right,
Bottom
Required
Channel
Tested/Reduced
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
58 – 5290 MHz
58 – 5290 MHz
Reduced1
Reduced1
Tested
Reduced1
Reduced1
Reduced1
Tested
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced3
Back
Top
Left, Right,
58 – 5290 MHz
Reduced2
Bottom
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Reduced3 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
802.11ac
5210 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.32)]*50 mm}]+[{62.3-50 mm}*10]=188 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 28 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.6 Test Reduction Table – 5.2 GHz Aux Inpaq
Mode
Side
Back
802.11a
5250 MHz
Top
Left, Right,
Bottom
Back
802.11n
5250 MHz
Top
Left, Right,
Bottom
Required
Channel
Tested/Reduced
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
58 – 5290 MHz
58 – 5290 MHz
Reduced1
Reduced1
Tested
Reduced1
Reduced1
Reduced1
Tested
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced3
Back
Top
Left, Right,
58 – 5290 MHz
Reduced2
Bottom
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Reduced3 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
802.11ac
5210 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.32)]*50 mm}]+[{62.3-50 mm}*10]=188 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 29 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.7 Test Reduction Table – 5.6 GHz Main Inpaq
Mode
Side
Required Channel
Tested/Reduced
100 – 5500 MHz
Reduced2
104 – 5520 MHz
Reduced2
108 – 5540 MHz
Reduced2
112 – 5560 MHz
Reduced2
116 – 5580 MHz
Tested
Back
120 – 5600 MHz
Reduced2
124 – 5620 MHz
Tested
128 – 5640 MHz
Reduced2
132 – 5660 MHz
Reduced2
136 – 5680 MHz
Reduced2
140 – 5700 MHz
Reduced2
100 – 5500 MHz
Reduced3
104 – 5520 MHz
Reduced3
108 – 5540 MHz
Reduced3
112 – 5560 MHz
Reduced3
116 – 5580 MHz
Tested
802.11a
Top
120 – 5600 MHz
Reduced3
5600 MHz
124 – 5620 MHz
Tested
128 – 5640 MHz
Reduced3
132 – 5660 MHz
Reduced3
136 – 5680 MHz
Reduced3
140 – 5700 MHz
Reduced3
100 – 5500 MHz
Reduced4
104 – 5520 MHz
Reduced4
108 – 5540 MHz
Reduced4
112 – 5560 MHz
Reduced4
116 – 5580 MHz
Reduced4
Left, Right,
120 – 5600 MHz
Reduced4
Bottom
124 – 5620 MHz
Reduced4
128 – 5640 MHz
Reduced4
132 – 5660 MHz
Reduced4
136 – 5680 MHz
Reduced4
140 – 5700 MHz
Reduced4
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the reported SAR is >0.8 W/kg, test the next highest configuration until the SAR value is ≤ 1.2 W/kg per KDB
248227 D01 v02r02 section 5.1.1 3) page 9.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 30 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.8 Test Reduction Table – 5.6 GHz Main Inpaq
Mode
Side
Required Channel
Tested/Reduced
100 – 5500 MHz
Reduced2
104 – 5520 MHz
Reduced2
108 – 5540 MHz
Reduced2
112 – 5560 MHz
Reduced2
116 – 5580 MHz
Reduced2
Back
120 – 5600 MHz
Reduced2
124 – 5620 MHz
Reduced2
128 – 5640 MHz
Reduced2
132 – 5660 MHz
Reduced2
136 – 5680 MHz
Reduced2
140 – 5700 MHz
Reduced2
100 – 5500 MHz
Reduced3
104 – 5520 MHz
Reduced3
108 – 5540 MHz
Reduced3
112 – 5560 MHz
Reduced3
116 – 5580 MHz
Reduced3
802.11n
Top
120 – 5600 MHz
Reduced3
5600 MHz
124 – 5620 MHz
Reduced3
128 – 5640 MHz
Reduced3
132 – 5660 MHz
Reduced3
136 – 5680 MHz
Reduced3
140 – 5700 MHz
Reduced3
100 – 5500 MHz
Reduced4
104 – 5520 MHz
Reduced4
108 – 5540 MHz
Reduced4
112 – 5560 MHz
Reduced4
116 – 5580 MHz
Reduced4
Left, Right,
120 – 5600 MHz
Reduced4
Bottom
124 – 5620 MHz
Reduced4
128 – 5640 MHz
Reduced4
132 – 5660 MHz
Reduced4
136 – 5680 MHz
Reduced4
140 – 5700 MHz
Reduced4
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 31 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.9 Test Reduction Table – 5.6 GHz Main Inpaq
Mode
Side
Required Channel
Tested/Reduced
106 – 5530 MHz
Reduced2
Back
122 – 5610 MHz
Reduced2
138 – 5690 MHz
Reduced2
106 – 5530 MHz
Reduced3
802.11ac
Left
122 – 5610 MHz
Reduced3
5600 MHz
138 – 5690 MHz
Reduced3
106 – 5530 MHz
Reduced4
Top, Right,
122 – 5610 MHz
Reduced4
Bottom, Laptop
138 – 5690 MHz
Reduced4
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 32 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.10 Test Reduction Table – 5.6 GHz Aux Inpaq
Mode
Side
Required Channel
Tested/Reduced
100 – 5500 MHz
Reduced1
104 – 5520 MHz
Reduced1
108 – 5540 MHz
Reduced1
112 – 5560 MHz
Reduced1
116 – 5580 MHz
Reduced1
Back
120 – 5600 MHz
Reduced1
124 – 5620 MHz
Tested
128 – 5640 MHz
Reduced1
132 – 5660 MHz
Reduced1
136 – 5680 MHz
Reduced1
140 – 5700 MHz
Reduced1
100 – 5500 MHz
Reduced1
104 – 5520 MHz
Reduced1
108 – 5540 MHz
Reduced1
112 – 5560 MHz
Reduced1
116 – 5580 MHz
Reduced1
802.11a
Top
120 – 5600 MHz
Reduced1
5600 MHz
124 – 5620 MHz
Tested
128 – 5640 MHz
Reduced1
132 – 5660 MHz
Reduced1
136 – 5680 MHz
Reduced1
140 – 5700 MHz
Reduced1
100 – 5500 MHz
Reduced3
104 – 5520 MHz
Reduced3
108 – 5540 MHz
Reduced3
112 – 5560 MHz
Reduced3
116 – 5580 MHz
Reduced3
Left, Right,
120 – 5600 MHz
Reduced3
Bottom
124 – 5620 MHz
Reduced3
128 – 5640 MHz
Reduced3
132 – 5660 MHz
Reduced3
136 – 5680 MHz
Reduced3
140 – 5700 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{54-50 mm}*10]=102 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 33 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.11 Test Reduction Table – 5.6 GHz Aux Inpaq
Mode
Side
Required Channel
Tested/Reduced
100 – 5500 MHz
Reduced1
104 – 5520 MHz
Reduced1
108 – 5540 MHz
Reduced1
112 – 5560 MHz
Reduced1
116 – 5580 MHz
Reduced1
Back
120 – 5600 MHz
Reduced1
124 – 5620 MHz
Reduced1
128 – 5640 MHz
Reduced1
132 – 5660 MHz
Reduced1
136 – 5680 MHz
Reduced1
140 – 5700 MHz
Reduced1
100 – 5500 MHz
Reduced1
104 – 5520 MHz
Reduced1
108 – 5540 MHz
Reduced1
112 – 5560 MHz
Reduced1
116 – 5580 MHz
Reduced1
802.11n
Top
120 – 5600 MHz
Reduced1
5600 MHz
124 – 5620 MHz
Reduced1
128 – 5640 MHz
Reduced1
132 – 5660 MHz
Reduced1
136 – 5680 MHz
Reduced1
140 – 5700 MHz
Reduced1
100 – 5500 MHz
Reduced3
104 – 5520 MHz
Reduced3
108 – 5540 MHz
Reduced3
112 – 5560 MHz
Reduced3
116 – 5580 MHz
Reduced3
Left, Right,
120 – 5600 MHz
Reduced3
Bottom
124 – 5620 MHz
Reduced3
128 – 5640 MHz
Reduced3
132 – 5660 MHz
Reduced3
136 – 5680 MHz
Reduced3
140 – 5700 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 34 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.12 Test Reduction Table – 5.6 GHz Aux Inpaq
Mode
Side
Required Channel
Tested/Reduced
106 – 5530 MHz
Reduced1
Back
122 – 5610 MHz
Reduced1
138 – 5690 MHz
Reduced1
106 – 5530 MHz
Reduced1
802.11ac
Left
122 – 5610 MHz
Reduced1
5600 MHz
138 – 5690 MHz
Reduced1
106 – 5530 MHz
Reduced3
Top, Right,
122 – 5610 MHz
Reduced3
Bottom, Laptop
138 – 5690 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 35 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.13 Test Reduction Table – 5.8 GHz Main Inpaq
Mode
Side
Back
802.11a
5800 MHz
Top
Left, Right,
Bottom
Back
802.11n
5800 MHz
Top
Left, Right,
Bottom
Required Channel
Tested/Reduced
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
155 – 5775 MHz
155 – 5775 MHz
Reduced1
Reduced1
Tested
Reduced1
Reduced1
Reduced2
Reduced2
Tested
Reduced2
Tested
Reduced4
Reduced4
Reduced4
Reduced4
Reduced4
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced2
Reduced4
Reduced4
Reduced4
Reduced4
Reduced4
Reduced1
Reduced2
Back
Top
Left, Right,
155 – 5775 MHz
Reduced4
Bottom
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is > 0.8 W/kg, test next highest output power channel until SAR ≤ 1.2 W/kg then all remaining
test configurations are not required per KDB 248227 D01 v02r02 section 5.1.1 3) page 9.
Reduced3 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
802.11ac
5800 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.825)]*50 mm}]+[{62.3-50 mm}*10]=185 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 36 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.14 Test Reduction Table – 5.8 GHz Aux Inpaq
Mode
Side
Back
802.11a
5800 MHz
Top
Left, Right,
Bottom
Back
802.11n
5800 MHz
Top
Left, Right,
Bottom
Required Channel
Tested/Reduced
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
155 – 5775 MHz
155 – 5775 MHz
Reduced1
Reduced1
Tested
Reduced1
Reduced1
Reduced1
Reduced1
Tested
Reduced1
Reduced1
Reduced4
Reduced4
Reduced4
Reduced4
Reduced4
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced4
Reduced4
Reduced4
Reduced4
Reduced4
Reduced1
Reduced1
Back
Top
Left, Right,
155 – 5775 MHz
Reduced4
Bottom
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is > 0.4 W/kg, test next highest output power channel until SAR ≤ 0.8 W/kg then all remaining
test configurations are not required per KDB 248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the reported SAR is >0.8 W/kg, test the next highest configuration until the SAR value is ≤ 1.2 W/kg per KDB
248227 D01 v02r02 section 5.1.1 3) page 9.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
802.11ac
5800 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 33.5 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.825)]*50 mm}]+[{62.3-50 mm}*10]=185 mW which is greater than 33.5 mW
© 2017 RF Exposure Lab, LLC
Page 37 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.15 Test Reduction Table – 2.4 GHz Main WNC
Mode
Side
Required
Channel
Tested/Reduced
1 – 2412 MHz
Reduced1
6 – 2437 MHz
Tested
11 – 2462 MHz
Reduced1
1 – 2412 MHz
Reduced1
802.11b
Top
6 – 2437 MHz
Tested
11 – 2462 MHz
Reduced1
1 – 2412 MHz
Reduced4
Left, Right,
6 – 2437 MHz
Reduced4
Bottom
11 – 2462 MHz
Reduced4
1 – 2412 MHz
Reduced3
Back
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
802.11g
Top
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Left, Right,
6 – 2437 MHz
Reduced3
Bottom
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Back
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
802.11n
Top
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Left, Right,
6 – 2437 MHz
Reduced3
Bottom
11 – 2462 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS specified maximum output power
and the adjusted SAR is ≤ 1.2 W/kg, SAR is not required per KDB 248227 D01 v02r02 section 5.2.2 2) page 10.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Back
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 53.1 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√2.462)]*50 mm}]+[{62.3-50 mm}*10]=218 mW which is greater than 53.1 mW
© 2017 RF Exposure Lab, LLC
Page 38 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.16 Test Reduction Table – 2.4 GHz Aux WNC
Mode
Side
Required
Channel
Tested/Reduced
1 – 2412 MHz
Reduced1
6 – 2437 MHz
Tested
11 – 2462 MHz
Reduced1
1 – 2412 MHz
Reduced1
802.11b
Top
6 – 2437 MHz
Tested
11 – 2462 MHz
Reduced1
1 – 2412 MHz
Reduced4
Left, Right,
6 – 2437 MHz
Reduced4
Bottom
11 – 2462 MHz
Reduced4
1 – 2412 MHz
Reduced3
Back
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
802.11g
Top
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Left, Right,
6 – 2437 MHz
Reduced3
Bottom
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Back
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
802.11n
Top
6 – 2437 MHz
Reduced3
11 – 2462 MHz
Reduced3
1 – 2412 MHz
Reduced3
Left, Right,
6 – 2437 MHz
Reduced3
Bottom
11 – 2462 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS specified maximum output power
and the adjusted SAR is ≤ 1.2 W/kg, SAR is not required per KDB 248227 D01 v02r02 section 5.2.2 2) page 10.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Back
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 53.1 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√2.462)]*50 mm}]+[{62.3-50 mm}*10]=218 mW which is greater than 53.1 mW
© 2017 RF Exposure Lab, LLC
Page 39 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.17 Test Reduction Table – 5.1 GHz Main WNC
Mode
Side
Back
802.11a
5150 MHz
Top
Left, Right,
Bottom
Back
802.11n
5150 MHz
Top
Left, Right,
Bottom
Required
Channel
Tested/Reduced
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
42 – 5210 MHz
42 – 5210 MHz
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Back
Top
Left, Right,
42 – 5210 MHz
Reduced2
Bottom
Reduced1 – When the adjusted SAR is ≤ 1.2 W/kg, SAR is not required for the UNII-1 with the same or lower maximum output
power in that test configuration per KDB 248227 D01 v02r02 section 5.3.1 1) page 11.
Reduced2 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
802.11ac
5210 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.24)]*50 mm}]+[{62.3-50 mm}*10]=188 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 40 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.18 Test Reduction Table – 5.1 GHz Aux WNC
Mode
Side
Back
802.11a
5150 MHz
Top
Left, Right,
Bottom
Back
802.11n
5150 MHz
Top
Left, Right,
Bottom
Required
Channel
Tested/Reduced
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
36 – 5180 MHz
40 – 5200 MHz
44 – 5220 MHz
48 – 5240 MHz
42 – 5210 MHz
42 – 5210 MHz
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Back
Top
Left, Right,
42 – 5210 MHz
Reduced2
Bottom
Reduced1 – When the adjusted SAR is ≤ 1.2 W/kg, SAR is not required for the UNII-1 with the same or lower maximum output
power in that test configuration per KDB 248227 D01 v02r02 section 5.3.1 1) page 11.
Reduced2 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
802.11ac
5210 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.24)]*50 mm}]+[{62.3-50 mm}*10]=188 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 41 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.19 Test Reduction Table – 5.2 GHz Main WNC
Mode
Side
Back
802.11a
5250 MHz
Top
Left, Right,
Bottom
Back
802.11n
5250 MHz
Top
Left, Right,
Bottom
Required
Channel
Tested/Reduced
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
58 – 5290 MHz
58 – 5290 MHz
Reduced1
Reduced1
Tested
Reduced1
Reduced3
Tested
Tested
Reduced3
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Reduced1
Reduced1
Reduced3
Reduced3
Reduced3
Reduced3
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced3
Back
Top
Left, Right,
58 – 5290 MHz
Reduced2
Bottom
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Reduced3 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
802.11ac
5210 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.32)]*50 mm}]+[{62.3-50 mm}*10]=188 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 42 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.20 Test Reduction Table – 5.2 GHz Aux WNC
Mode
Side
Back
802.11a
5250 MHz
Top
Left, Right,
Bottom
Back
802.11n
5250 MHz
Top
Left, Right,
Bottom
Required
Channel
Tested/Reduced
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
52 – 5260 MHz
56 – 5280 MHz
60 – 5300 MHz
64 – 5320 MHz
58 – 5290 MHz
58 – 5290 MHz
Reduced1
Reduced1
Tested
Reduced1
Reduced3
Tested
Tested
Reduced3
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced1
Reduced1
Reduced1
Reduced3
Reduced3
Reduced3
Reduced3
Reduced2
Reduced2
Reduced2
Reduced2
Reduced1
Reduced3
Back
Top
Left, Right,
58 – 5290 MHz
Reduced2
Bottom
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Reduced3 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
802.11ac
5210 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.32)]*50 mm}]+[{62.3-50 mm}*10]=188 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 43 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.21 Test Reduction Table – 5.6 GHz Main WNC
Mode
Side
Required Channel
Tested/Reduced
100 – 5500 MHz
Reduced2
104 – 5520 MHz
Reduced2
108 – 5540 MHz
Reduced2
112 – 5560 MHz
Reduced2
116 – 5580 MHz
Tested
Back
120 – 5600 MHz
Reduced2
124 – 5620 MHz
Tested
128 – 5640 MHz
Reduced2
132 – 5660 MHz
Reduced2
136 – 5680 MHz
Reduced2
140 – 5700 MHz
Reduced2
100 – 5500 MHz
Reduced3
104 – 5520 MHz
Reduced3
108 – 5540 MHz
Reduced3
112 – 5560 MHz
Reduced3
116 – 5580 MHz
Tested
802.11a
Top
120 – 5600 MHz
Reduced3
5600 MHz
124 – 5620 MHz
Tested
128 – 5640 MHz
Reduced3
132 – 5660 MHz
Reduced3
136 – 5680 MHz
Reduced3
140 – 5700 MHz
Reduced3
100 – 5500 MHz
Reduced4
104 – 5520 MHz
Reduced4
108 – 5540 MHz
Reduced4
112 – 5560 MHz
Reduced4
116 – 5580 MHz
Reduced4
Left, Right,
120 – 5600 MHz
Reduced4
Bottom
124 – 5620 MHz
Reduced4
128 – 5640 MHz
Reduced4
132 – 5660 MHz
Reduced4
136 – 5680 MHz
Reduced4
140 – 5700 MHz
Reduced4
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the reported SAR is >0.8 W/kg, test the next highest configuration until the SAR value is ≤ 1.2 W/kg per KDB
248227 D01 v02r02 section 5.1.1 3) page 9.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 44 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.22 Test Reduction Table – 5.6 GHz Main WNC
Mode
Side
Required Channel
Tested/Reduced
100 – 5500 MHz
Reduced2
104 – 5520 MHz
Reduced2
108 – 5540 MHz
Reduced2
112 – 5560 MHz
Reduced2
116 – 5580 MHz
Reduced2
Back
120 – 5600 MHz
Reduced2
124 – 5620 MHz
Reduced2
128 – 5640 MHz
Reduced2
132 – 5660 MHz
Reduced2
136 – 5680 MHz
Reduced2
140 – 5700 MHz
Reduced2
100 – 5500 MHz
Reduced3
104 – 5520 MHz
Reduced3
108 – 5540 MHz
Reduced3
112 – 5560 MHz
Reduced3
116 – 5580 MHz
Reduced3
802.11n
Top
120 – 5600 MHz
Reduced3
5600 MHz
124 – 5620 MHz
Reduced3
128 – 5640 MHz
Reduced3
132 – 5660 MHz
Reduced3
136 – 5680 MHz
Reduced3
140 – 5700 MHz
Reduced3
100 – 5500 MHz
Reduced4
104 – 5520 MHz
Reduced4
108 – 5540 MHz
Reduced4
112 – 5560 MHz
Reduced4
116 – 5580 MHz
Reduced4
Left, Right,
120 – 5600 MHz
Reduced4
Bottom
124 – 5620 MHz
Reduced4
128 – 5640 MHz
Reduced4
132 – 5660 MHz
Reduced4
136 – 5680 MHz
Reduced4
140 – 5700 MHz
Reduced4
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 45 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.23 Test Reduction Table – 5.6 GHz Main WNC
Mode
Side
Required Channel
Tested/Reduced
106 – 5530 MHz
Reduced2
Back
122 – 5610 MHz
Reduced2
138 – 5690 MHz
Reduced2
106 – 5530 MHz
Reduced3
802.11ac
Left
122 – 5610 MHz
Reduced3
5600 MHz
138 – 5690 MHz
Reduced3
106 – 5530 MHz
Reduced4
Top, Right,
122 – 5610 MHz
Reduced4
Bottom, Laptop
138 – 5690 MHz
Reduced4
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 46 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.24 Test Reduction Table – 5.6 GHz Aux WNC
Mode
Side
Required Channel
Tested/Reduced
100 – 5500 MHz
Reduced1
104 – 5520 MHz
Reduced1
108 – 5540 MHz
Reduced1
112 – 5560 MHz
Reduced1
116 – 5580 MHz
Reduced1
Back
120 – 5600 MHz
Reduced1
124 – 5620 MHz
Tested
128 – 5640 MHz
Reduced1
132 – 5660 MHz
Reduced1
136 – 5680 MHz
Reduced1
140 – 5700 MHz
Reduced1
100 – 5500 MHz
Reduced1
104 – 5520 MHz
Reduced1
108 – 5540 MHz
Reduced1
112 – 5560 MHz
Reduced1
116 – 5580 MHz
Reduced1
802.11a
Top
120 – 5600 MHz
Reduced1
5600 MHz
124 – 5620 MHz
Tested
128 – 5640 MHz
Reduced1
132 – 5660 MHz
Reduced1
136 – 5680 MHz
Reduced1
140 – 5700 MHz
Reduced1
100 – 5500 MHz
Reduced3
104 – 5520 MHz
Reduced3
108 – 5540 MHz
Reduced3
112 – 5560 MHz
Reduced3
116 – 5580 MHz
Reduced3
Left, Right,
120 – 5600 MHz
Reduced3
Bottom
124 – 5620 MHz
Reduced3
128 – 5640 MHz
Reduced3
132 – 5660 MHz
Reduced3
136 – 5680 MHz
Reduced3
140 – 5700 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{54-50 mm}*10]=102 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 47 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.25 Test Reduction Table – 5.6 GHz Aux WNC
Mode
Side
Required Channel
Tested/Reduced
100 – 5500 MHz
Reduced1
104 – 5520 MHz
Reduced1
108 – 5540 MHz
Reduced1
112 – 5560 MHz
Reduced1
116 – 5580 MHz
Reduced1
Back
120 – 5600 MHz
Reduced1
124 – 5620 MHz
Reduced1
128 – 5640 MHz
Reduced1
132 – 5660 MHz
Reduced1
136 – 5680 MHz
Reduced1
140 – 5700 MHz
Reduced1
100 – 5500 MHz
Reduced1
104 – 5520 MHz
Reduced1
108 – 5540 MHz
Reduced1
112 – 5560 MHz
Reduced1
116 – 5580 MHz
Reduced1
802.11n
Top
120 – 5600 MHz
Reduced1
5600 MHz
124 – 5620 MHz
Reduced1
128 – 5640 MHz
Reduced1
132 – 5660 MHz
Reduced1
136 – 5680 MHz
Reduced1
140 – 5700 MHz
Reduced1
100 – 5500 MHz
Reduced3
104 – 5520 MHz
Reduced3
108 – 5540 MHz
Reduced3
112 – 5560 MHz
Reduced3
116 – 5580 MHz
Reduced3
Left, Right,
120 – 5600 MHz
Reduced3
Bottom
124 – 5620 MHz
Reduced3
128 – 5640 MHz
Reduced3
132 – 5660 MHz
Reduced3
136 – 5680 MHz
Reduced3
140 – 5700 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 48 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.26 Test Reduction Table – 5.6 GHz Aux WNC
Mode
Side
Required Channel
Tested/Reduced
106 – 5530 MHz
Reduced1
Back
122 – 5610 MHz
Reduced1
138 – 5690 MHz
Reduced1
106 – 5530 MHz
Reduced1
802.11ac
Left
122 – 5610 MHz
Reduced1
5600 MHz
138 – 5690 MHz
Reduced1
106 – 5530 MHz
Reduced3
Top, Right,
122 – 5610 MHz
Reduced3
Bottom, Laptop
138 – 5690 MHz
Reduced3
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 42.2 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.70)]*50 mm}]+[{63.2-50 mm}*10]=185 mW which is greater than 42.2 mW
© 2017 RF Exposure Lab, LLC
Page 49 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Report Number: SAR.20170305
Figure 8.27 Test Reduction Table – 5.8 GHz Main WNC
Mode
Side
Back
802.11a
5800 MHz
Top
Left, Right,
Bottom
Back
802.11n
5800 MHz
Top
Left, Right,
Bottom
Required Channel
Tested/Reduced
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
155 – 5775 MHz
155 – 5775 MHz
Reduced1
Reduced1
Tested
Reduced1
Reduced1
Reduced2
Reduced2
Tested
Reduced2
Tested
Reduced4
Reduced4
Reduced4
Reduced4
Reduced4
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced2
Reduced2
Reduced2
Reduced2
Reduced2
Reduced4
Reduced4
Reduced4
Reduced4
Reduced4
Reduced1
Reduced2
Back
Top
Left, Right,
155 – 5775 MHz
Reduced4
Bottom
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is > 0.8 W/kg, test next highest output power channel until SAR ≤ 1.2 W/kg then all remaining
test configurations are not required per KDB 248227 D01 v02r02 section 5.1.1 3) page 9.
Reduced3 – When the reported SAR is >0.4 W/kg, test the next highest configuration until the SAR value is ≤ 0.8 W/kg per KDB
248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
802.11ac
5800 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 37.6 mW
Bottom Edge distance: 195 mm
Right Side distance: 208.5 mm
Left Side distance: 62.3 mm
The closest distance is from the left side. Therefore, if the left side is excluded the right and bottom would also be excluded.
[{[(3.0)/(√5.825)]*50 mm}]+[{62.3-50 mm}*10]=185 mW which is greater than 37.6 mW
© 2017 RF Exposure Lab, LLC
Page 50 of 119
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Report Number: SAR.20170305
Figure 8.28 Test Reduction Table – 5.8 GHz Aux WNC
Mode
Side
Back
802.11a
5800 MHz
Top
Left, Right,
Bottom
Back
802.11n
5800 MHz
Top
Left, Right,
Bottom
Required Channel
Tested/Reduced
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
149 – 5745 MHz
153 – 5765 MHz
157 – 5785 MHz
161 – 5805 MHz
165 – 5825 MHz
155 – 5775 MHz
155 – 5775 MHz
Reduced1
Reduced1
Tested
Reduced1
Reduced1
Reduced1
Reduced1
Tested
Reduced1
Reduced1
Reduced4
Reduced4
Reduced4
Reduced4
Reduced4
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced1
Reduced4
Reduced4
Reduced4
Reduced4
Reduced4
Reduced1
Reduced1
Back
Top
Left, Right,
155 – 5775 MHz
Reduced4
Bottom
Reduced1 – When the reported SAR is ≤ 0.4 W/kg, SAR is not required for the remaining test configuration per KDB 248227 D01
v02r02 section 5.1.1 1) page 9.
Reduced2 – When the reported SAR is > 0.4 W/kg, test next highest output power channel until SAR ≤ 0.8 W/kg then all remaining
test configurations are not required per KDB 248227 D01 v02r02 section 5.1.1 2) page 9.
Reduced3 – When the reported SAR is >0.8 W/kg, test the next highest configuration until the SAR value is ≤ 1.2 W/kg per KDB
248227 D01 v02r02 section 5.1.1 3) page 9.
Reduced4 – When the antenna is more than 25 mm from a side, the test can be reduced per KDB447498 D01 v06 section 4.3.1 1)
page 11. See below for calculations.
802.11ac
5800 MHz
Calculations for test exclusion for Bottom, Right and Left side.
Maximum power: 33.5 mW
Bottom Edge distance: 195 mm
Right Side distance: 62.3 mm
Left Side distance: 208.5 mm
The closest distance is from the right side. Therefore, if the right side is excluded the bottom and left would also be excluded.
[{[(3.0)/(√5.825)]*50 mm}]+[{62.3-50 mm}*10]=185 mW which is greater than 33.5 mW
© 2017 RF Exposure Lab, LLC
Page 51 of 119
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Report Number: SAR.20170305
SAR Data Summary – 2450 MHz Body 802.11b & BT
MEASUREMENT RESULTS
Plot
------------------------1
---------------------
Gap
Antenna
Position
Back
Inpaq
Top
mm
Back
WNC
Top
Inpaq
WNC
Back
Top
Back
Top
Frequency
MHz
2437
2437
2437
2437
2437
2437
2437
2437
2440
2440
2440
2440
Ch.
39
39
39
39
Modulation
Antenna
DSSS
DSSS
DSSS
DSSS
DSSS
DSSS
DSSS
DSSS
GFSK
GFSK
GFSK
GFSK
Main
Aux
Main
Aux
Main
Aux
Main
Aux
Aux
Aux
End Power
(dBm)
17.25
17.24
17.25
17.24
17.25
17.24
17.25
17.24
7.78
7.78
7.78
7.78
Measured
SAR
(W/kg)
0.130
0.123
0.193
0.118
0.129
0.135
0.354
0.216
0.0153
0.0145
0.0162
0.0273
Body
1.6 W/kg (mW/g)
averaged over 1 gram
1. Battery is fully charged for all tests.
Power Measured
Conducted
2. SAR Measurement
Phantom Configuration
Left Head
SAR Configuration
Head
Test Code
3. Test Signal Call Mode
4. Test Configuration
With Belt Clip
5. Tissue Depth is at least 15.0 cm
ERP
EIRP
Eli4
Right Head
Body
Base Station Simulator
Without Belt Clip
N/A
Jay M. Moulton
Vice President
© 2017 RF Exposure Lab, LLC
Page 52 of 119
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Reported
SAR
(W/kg)
0.13
0.12
0.19
0.12
0.13
0.14
0.35
0.22
0.03
0.02
0.03
0.05
Report Number: SAR.20170305
SAR Data Summary – 5250 MHz Body 802.11a
MEASUREMENT RESULTS
Plot
------------------------2
-------------
Gap
Antenna
Position
Back
Inpaq
Top
mm
Back
WNC
Top
Frequency
MHz
5300
5300
5300
5300
5300
5300
5280
5300
5280
5300
Ch.
60
60
60
60
60
60
56
60
56
60
Modulation
Antenna
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
Main
Aux
Main
Aux
Main
Aux
Main
Aux
End Power
(dBm)
15.75
16.24
15.75
16.22
15.75
16.24
15.75
15.75
16.22
16.24
Measured
SAR
(W/kg)
0.264
0.173
0.375
0.363
0.323
0.240
0.770
0.750
0.488
0.467
Body
1.6 W/kg (mW/g)
averaged over 1 gram
1. Battery is fully charged for all tests.
Power Measured
Conducted
2. SAR Measurement
Phantom Configuration
Left Head
SAR Configuration
Head
Test Code
3. Test Signal Call Mode
4. Test Configuration
With Belt Clip
5. Tissue Depth is at least 15.0 cm
ERP
EIRP
Eli4
Right Head
Body
Base Station Simulator
Without Belt Clip
N/A
Jay M. Moulton
Vice President
© 2017 RF Exposure Lab, LLC
Page 53 of 119
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Reported
SAR
(W/kg)
0.26
0.17
0.38
0.37
0.32
0.24
0.77
0.75
0.49
0.47
Report Number: SAR.20170305
SAR Data Summary – 5600 MHz Body 802.11a
MEASUREMENT RESULTS
Plot
--------------------------------3
-------------
Gap
Antenna
Position
Back
Inpaq
Top
mm
Back
WNC
Top
WNC
Repeated
Frequency
MHz
5580
5620
5620
5580
5620
5620
5620
5620
5580
5620
5620
5580
Ch.
116
124
124
116
124
124
124
124
116
124
124
116
Modulation
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
Antenna
Main
Aux
Main
Aux
Main
Aux
Main
Aux
Main
End
Power
(dBm)
15.75
15.75
16.25
15.75
15.75
16.25
15.75
16.25
15.75
15.75
16.25
15.75
Measured
SAR
(W/kg)
0.391
0.426
0.263
0.775
0.833
0.381
0.366
0.234
0.980
0.891
0.364
0.972
Body
1.6 W/kg (mW/g)
averaged over 1 gram
1. Battery is fully charged for all tests.
Conducted
Power Measured
2. SAR Measurement
Left Head
Phantom Configuration
SAR Configuration
Head
3. Test Signal Call Mode
Test Code
With Belt Clip
4. Test Configuration
5. Tissue Depth is at least 15.0 cm
ERP
EIRP
Eli4
Right Head
Body
Base Station Simulator
Without Belt Clip
N/A
Jay M. Moulton
Vice President
© 2017 RF Exposure Lab, LLC
Page 54 of 119
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Reported
SAR
(W/kg)
0.39
0.43
0.26
0.78
0.83
0.38
0.37
0.23
0.98
0.89
0.36
0.97
Report Number: SAR.20170305
SAR Data Summary – 5800 MHz Body 802.11a
MEASUREMENT RESULTS
Plot
----------------------------4
-------------
Gap
Antenna
Position
Back
Inpaq
Top
mm
Back
WNC
Top
WNC
Repeated
Frequency
MHz
5785
5785
5785
5825
5785
5785
5785
5785
5825
5785
5785
Ch.
157
157
157
165
157
157
157
157
165
157
157
Modulation
Antenna
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
OFDM
Main
Aux
Main
Aux
Main
Aux
Main
Aux
Main
End Power
(dBm)
15.75
15.25
15.75
15.75
15.25
15.75
15.25
15.75
15.75
15.25
15.75
Measured
SAR
(W/kg)
0.269
0.239
0.690
0.866
0.315
0.316
0.157
1.03
0.916
0.285
1.00
Body
1.6 W/kg (mW/g)
averaged over 1 gram
1. Battery is fully charged for all tests.
Power Measured
Conducted
2. SAR Measurement
Phantom Configuration
Left Head
SAR Configuration
Head
Test Code
3. Test Signal Call Mode
4. Test Configuration
With Belt Clip
5. Tissue Depth is at least 15.0 cm
ERP
EIRP
Eli4
Right Head
Body
Base Station Simulator
Without Belt Clip
N/A
Jay M. Moulton
Vice President
© 2017 RF Exposure Lab, LLC
Page 55 of 119
This report shall not be reproduced except in full without the written approval of RF Exposure Lab, LLC.
Reported
SAR
(W/kg)
0.27
0.24
0.69
0.87
0.32
0.32
0.16
1.03
0.92
0.29
1.00
Report Number: SAR.20170305
SAR Data Summary – Simultaneous Evaluation
MEASUREMENT RESULTS
Frequency
MHz
2437
5280
5580
5785
Ch.
56
116
157
Modulation
DSSS
OFDM
OFDM
OFDM
Frequency
MHz
2440
2440
2440
2440
Ch.
39
39
39
39
Modulation
SAR1
SAR2
SAR Total
GFSK
GFSK
GFSK
GFSK
0.35
0.77
0.98
1.03
0.05
0.05
0.05
0.05
0.40
0.82
1.03
1.08
Body
1.6 W/kg (mW/g)
averaged over 1 gram
The sum of the two transmitters is less than the limit; therefore, the simultaneous transmission
meets the requirements of KDB447498 D01 v06 section 4.3.2 page 11.
MEASUREMENT RESULTS - MIMO
Frequency
MHz
2437
5280
5580
5785
Ch.
56
116
157
Modulation
DSSS
OFDM
OFDM
OFDM
Frequency
MHz
2437
5280
5620
5785
Ch.
56
124
157
Modulation
SAR1 - Main
SAR2 - Aux
SAR Total
DSSS
OFDM
OFDM
OFDM
0.35
0.77
0.98
1.03
0.22
0.49
0.43
0.32
0.57
1.26
1.41
1.35
Body
1.6 W/kg (mW/g)
averaged over 1 gram
The sum of the two transmitters is less than the limit; therefore, the simultaneous transmission
meets the requirements of KDB447498 D01 v06 section 4.3.2 page 11.
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
9.
Test Equipment List
Table 9.1 Equipment Specifications
Type
Calibration Due Date
Calibration Done Date
Serial Number
Staubli Robot TX60L
Measurement Controller CS8c
ELI4 Flat Phantom
Device Holder
Data Acquisition Electronics 4
SPEAG E-Field Probe EX3DV4
Speag Validation Dipole D2450V2
Speag Validation Dipole D5GHzV2
Agilent N1911A Power Meter
Agilent N1922A Power Sensor
Advantest R3261A Spectrum Analyzer
Agilent (HP) 8350B Signal Generator
Agilent (HP) 83525A RF Plug-In
Agilent (HP) 8753C Vector Network Analyzer
Agilent (HP) 85047A S-Parameter Test Set
Agilent (HP) 8960 Base Station Sim.
Anritsu MT8820C
Agilent 778D Dual Directional Coupler
MiniCircuits BW-N20W5+ Fixed 20 dB
Attenuator
MiniCircuits SPL-10.7+ Low Pass Filter
Aprel Dielectric Probe Assembly
Body Equivalent Matter (2450 MHz)
Body Equivalent Matter (5 GHz)
N/A
N/A
N/A
N/A
02/10/2017
01/23/2018
08/10/2017
08/11/2017
05/20/2017
06/25/2017
03/26/2017
03/26/2017
03/26/2017
03/26/2017
03/26/2017
03/31/2017
07/28/2017
N/A
N/A
N/A
N/A
N/A
N/A
02/10/2017
01/23/2017
08/10/2015
08/11/2015
05/20/2015
06/25/2015
03/26/2015
03/26/2015
03/26/2015
03/26/2015
03/26/2015
03/31/2015
07/28/2015
N/A
N/A
F07/55M6A1/A/01
1012
2037
N/A
1217
3833
881
1119
GB45100254
MY45240464
31720068
2749A10226
2647A01172
3135A01724
2904A00595
MY48360364
6201176199
MY48220184
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
R8979513746
0011
N/A
N/A
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
10. Conclusion
The SAR measurement indicates that the EUT complies with the RF radiation exposure
limits of the FCC/IC. These measurements are taken to simulate the RF effects
exposure under worst-case conditions. Precise laboratory measures were taken to
assure repeatability of the tests. The tested device complies with the requirements in
respect to all parameters subject to the test. The test results and statements relate only
to the item(s) tested.
Please note that the absorption and distribution of electromagnetic energy in the body is
a very complex phenomena that depends on the mass, shape, and size of the body; the
orientation of the body with respect to the field vectors; and, the electrical properties of
both the body and the environment. Other variables that may play a substantial role in
possible biological effects are those that characterize the environment (e.g. ambient
temperature, air velocity, relative humidity, and body insulation) and those that
characterize the individual (e.g. age, gender, activity level, debilitation, or disease).
Because innumerable factors may interact to determine the specific biological outcome
of an exposure to electromagnetic fields, any protection guide shall consider maximal
amplification of biological effects as a result of field-body interactions, environmental
conditions, and physiological variables.
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
11. References
[1]
Federal Communications Commission, ET Docket 93-62, Guidelines for
Evaluating the Environmental Effects of Radio Frequency Radiation, August 1996
[2]
ANSI/IEEE C95.1 – 1992, American National Standard Safety Levels with
respect to Human Exposure to Radio Frequency Electromagnetic Fields, 300kHz to
100GHz, New York: IEEE, 1992.
[3]
ANSI/IEEE C95.3 – 2002, IEEE Recommended Practice for the Measurement of
Potentially Hazardous Electromagnetic Fields – RF and Microwave, New York: IEEE,
2002.
[4]
International Electrotechnical Commission, IEC 62209-2 (Edition 1.0), Human
Exposure to radio frequency fields from hand-held and body mounted wireless
communication devices – Human models, instrumentation, and procedures – Part 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.
[5]
IEEE Standard 1528 – 2013, IEEE Recommended Practice for Determining the
Peak-Spatial Average Specific Absorption Rate (SAR) in the Human Head from Wireless
Communication Devices: Measurement Techniques, June 2013.
[6]
Industry Canada, RSS – 102 Issue 5, Radio Frequency Exposure Compliance of
Radiocommunication Apparatus (All Frequency Bands), March 2015.
[7]
Health Canada, Safety Code 6, Limits of Human Exposure to Radiofrequency
Electromagnetic Fields in the Frequency Range from 3kHz to 300 GHz, 2009.
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Report Number: SAR.20170305
Appendix A – System Validation Plots and Data
************************************************************
Test Result for UIM Dielectric Parameter
Fri 17/Mar/2017
Freq
Frequency(GHz)
FCC_eH Limits for Head Epsilon
FCC_sH Limits for Head Sigma
FCC_eB Limits for Body Epsilon
FCC_sB Limits for Body Sigma
Test_e Epsilon of UIM
Test_s Sigma of UIM
************************************************************
Freq
FCC_eB FCC_sB Test_e Test_s
2.4100
52.75 1.91
52.71 1.92
2.4120
52.742 1.918 52.706 1.922*
2.4200
52.74 1.92
52.69 1.93
2.4300
52.73 1.93
52.68 1.94
2.4370
52.716 1.937 52.666 1.947*
2.4400
52.71 1.94
52.66 1.95
2.4500
52.70 1.95
52.64 1.96
2.4600
52.69 1.96
52.63 1.98
2.4620
52.687 1.963 52.626 1.982*
2.4700
52.67 1.98
52.61 1.99
2.4800
52.66 1.99
52.60 2.00
* value interpolated
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Report Number: SAR.20170305
************************************************************
Test Result for UIM Dielectric Parameter
Mon 20/Mar/2017
Freq
Frequency(GHz)
FCC_eH Limits for Head Epsilon
FCC_sH Limits for Head Sigma
FCC_eB Limits for Body Epsilon
FCC_sB Limits for Body Sigma
Test_e Epsilon of UIM
Test_s Sigma of UIM
************************************************************
Freq
FCC_eB FCC_sB Test_e Test_s
5.1000
49.15 5.18
49.08 5.20
5.1200
49.12 5.21
49.05 5.22
5.1400
49.10 5.23
49.02 5.24
5.1600
49.07 5.25
48.99 5.26
5.1800
49.04 5.28
48.96 5.28
5.2000
49.01 5.30
48.93 5.30
5.2100
49.00 5.31
48.915 5.31*
5.2200
48.99 5.32
48.90 5.32
5.2400
48.96 5.35
48.97 5.34
5.2600
48.93 5.37
48.94 5.36
5.2800
48.91 5.39
48.91 5.38
5.2900
48.895 5.405 48.895 5.395*
5.3000
48.88 5.42
48.88 5.41
5.3200
48.85 5.44
48.85 5.43
5.3400
48.82 5.46
48.82 5.45
5.3600
48.80 5.49
48.79 5.47
5.3800
48.77 5.51
48.76 5.49
5.4000
48.74 5.53
48.73 5.51
5.4200
48.72 5.56
48.70 5.53
5.4400
48.69 5.58
48.67 5.56
5.4600
48.66 5.60
48.64 5.58
5.4800
48.63 5.63
48.61 5.60
5.5000
48.61 5.65
48.58 5.62
5.5200
48.58 5.67
48.55 5.65
5.5400
48.55 5.70
48.52 5.67
5.5600
48.53 5.72
48.49 5.69
5.5800
48.50 5.74
48.46 5.71
5.6000
48.47 5.77
48.43 5.74
5.6100
48.455 5.78
48.415 5.75*
5.6200
48.44 5.79
48.40 5.76
5.6400
48.42 5.81
48.37 5.78
5.6600
48.39 5.84
48.34 5.81
5.6800
48.36 5.86
48.31 5.83
5.7000
48.34 5.88
48.28 5.85
5.7200
48.31 5.91
48.25 5.88
5.7400
48.28 5.93
48.22 5.90
5.7450
48.273 5.935 48.213 5.905*
5.7600
48.25 5.95
48.19 5.92
5.7750
48.235 5.973 48.168 5.943*
5.7800
48.23 5.98
48.16 5.95
5.7850
48.223 5.985 48.153 5.955*
5.8000
48.20 6.00
48.13 5.97
5.8200
48.17 6.02
48.10 5.99
5.8250
48.165 6.028 48.093 5.998*
5.8400
48.15 6.05
48.07 6.02
* value interpolated
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
RF Exposure Lab
Plot 1
DUT: Dipole 2450 MHz D2450V2; Type: D2450V2; Serial: D2450V2 - SN:881
Communication System: CW; Frequency: 2450 MHz; Duty Cycle: 1:1
Medium: MSL2450; Medium parameters used: f = 2450 MHz; σ = 1.96 S/m; εr = 52.64; ρ = 1000 kg/m3
Phantom section: Flat Section
Test Date: Date: 3/17/2017; Ambient Temp: 23 °C; Tissue Temp: 21 °C
Probe: EX3DV4 - SN3833; ConvF(7.26, 7.26, 7.26); Calibrated: 1/23/2017;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1217; Calibrated: 2/10/2017
Phantom: ELI v5.0; Type: QDOVA002AA; Serial: 2037
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Procedure Notes:
2450 MHz Body/Verification/Area Scan (61x81x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 8.68 W/kg
2450 MHz Body/Verification/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 55.751 V/m; Power Drift = -0.01 dB
Peak SAR (extrapolated) = 10.7 W/kg
SAR(1 g) = 5.2 W/kg; SAR(10 g) = 2.4 W/kg
Maximum value of SAR (measured) = 5.91 W/kg
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Report Number: SAR.20170305
RF Exposure Lab
Plot 2
DUT: Dipole D5GHzV2; Type: D5GHzV2; Serial: D5GHzV2 - SN:1119
Communication System: CW; Frequency: 5200 MHz; Duty Cycle: 1:1
Medium: MSL 3-6 GHz; Medium parameters used: f = 5200 MHz; σ = 5.3 S/m; εr = 48.93; ρ = 1000 kg/m3
Phantom section: Flat Section
Test Date: Date: 3/20/2017; Ambient Temp: 23 °C; Tissue Temp: 21 °C
Probe: EX3DV4 - SN3833; ConvF(4.88, 4.88, 4.88); Calibrated: 1/23/2017;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1217; Calibrated: 2/10/2017
Phantom: ELI v5.0; Type: QDOVA002AA; Serial: 2037
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Procedure Notes:
5200 MHz Body/Verification/Area Scan (61x81x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 1.55 W/kg
5200 MHz Body/Verification/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=2mm
Reference Value = 55.759 V/m; Power Drift = -0.04 dB
Peak SAR (extrapolated) = 3.09 W/kg
SAR(1 g) = 0.796 W/kg; SAR(10 g) = 0.225 W/kg
Maximum value of SAR (measured) = 1.58 W/kg
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Report Number: SAR.20170305
RF Exposure Lab
Plot 3
DUT: Dipole D5GHzV2; Type: D5GHzV2; Serial: D5GHzV2 - SN:1119
Communication System: CW; Frequency: 5600 MHz; Duty Cycle: 1:1
Medium: MSL 3-6 GHz; Medium parameters used: f = 5600 MHz; σ = 5.74 S/m; εr = 48.43; ρ = 1000 kg/m3
Phantom section: Flat Section
Test Date: Date: 3/20/2017; Ambient Temp: 23 °C; Tissue Temp: 21 °C
Probe: EX3DV4 - SN3833; ConvF(4.18, 4.18, 4.18); Calibrated: 1/23/2017;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1217; Calibrated: 2/10/2017
Phantom: ELI v5.0; Type: QDOVA002AA; Serial: 2037
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Procedure Notes:
5600 MHz Body/Verification/Area Scan (61x81x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 1.68 W/kg
5600 MHz Body/Verification/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=2mm
Reference Value = 55.852 V/m; Power Drift = -0.01 dB
Peak SAR (extrapolated) = 3.37 W/kg
SAR(1 g) = 0.831 W/kg; SAR(10 g) = 0.238 W/kg
Maximum value of SAR (measured) = 1.71 W/kg
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Report Number: SAR.20170305
RF Exposure Lab
Plot 4
DUT: Dipole D5GHzV2; Type: D5GHzV2; Serial: D5GHzV2 - SN:1119
Communication System: CW; Frequency: 5800 MHz; Duty Cycle: 1:1
Medium: MSL 3-6 GHz; Medium parameters used: f = 5800 MHz; σ = 5.97 S/m; εr = 48.13; ρ = 1000 kg/m3
Phantom section: Flat Section
Test Date: Date: 3/20/2017; Ambient Temp: 23 °C; Tissue Temp: 21 °C
Probe: EX3DV4 - SN3833; ConvF(4.42, 4.42, 4.42); Calibrated: 1/23/2017;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1217; Calibrated: 2/10/2017
Phantom: ELI v5.0; Type: QDOVA002AA; Serial: 2037
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Procedure Notes:
5800 MHz Body/Verification/Area Scan (61x81x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 1.54 W/kg
5800 MHz Body/Verification/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=2mm
Reference Value = 55.812 V/m; Power Drift = -0.03 dB
Peak SAR (extrapolated) = 3.19 W/kg
SAR(1 g) = 0.786 W/kg; SAR(10 g) = 0.229 W/kg
Maximum value of SAR (measured) = 1.57 W/kg
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Report Number: SAR.20170305
Appendix B – SAR Test Data Plots
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RF Exposure Lab
Plot 1
DUT: TPN-Q185; Type: Tablet PC; Serial: Eng 2
Communication System: WiFi 802.11b (DSSS, 1 Mbps); Frequency: 2437 MHz; Duty Cycle: 1:1
Medium: MSL2450; Medium parameters used (interpolated): f = 2437 MHz; σ = 1.947 S/m; εr = 52.666; ρ = 1000 kg/m3
Phantom section: Flat Section
Test Date: Date: 3/17/2017; Ambient Temp: 23 °C; Tissue Temp: 21 °C
Probe: EX3DV4 - SN3833; ConvF(6.99, 6.99, 6.99); Calibrated: 1/23/2017;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1217; Calibrated: 2/10/2017
Phantom: ELI v5.0; Type: QDOVA002AA; Serial: 2037
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Procedure Notes:
2450 MHz WNC/Tablet Top Tx1 Mid/Area Scan (7x9x1): Measurement grid: dx=10mm, dy=10mm
Info: Interpolated medium parameters used for SAR evaluation.
Maximum value of SAR (measured) = 0.421 W/kg
2450 MHz WNC/Tablet Top Tx1 Mid/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 4.517 V/m; Power Drift = 0.03 dB
Peak SAR (extrapolated) = 0.813 W/kg
SAR(1 g) = 0.354 W/kg
Info: Interpolated medium parameters used for SAR evaluation.
Maximum value of SAR (measured) = 0.573 W/kg
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Report Number: SAR.20170305
RF Exposure Lab
Plot 2
DUT: TPN-Q185; Type: Tablet PC; Serial: Eng 2
Communication System: WiFi 802.11a (OFDM, 6 Mbps); Frequency: 5280 MHz; Duty Cycle: 1:1
Medium: MSL 3-6 GHz; Medium parameters used: f = 5280 MHz; σ = 5.38 S/m; εr = 48.91; ρ = 1000 kg/m3
Phantom section: Flat Section
Test Date: Date: 3/20/2017; Ambient Temp: 23 °C; Tissue Temp: 21 °C
Probe: EX3DV4 - SN3833; ConvF(4.17, 4.17, 4.17); Calibrated: 1/23/2017;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1217; Calibrated: 2/10/2017
Phantom: ELI v5.0; Type: QDOVA002AA; Serial: 2037
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Procedure Notes:
5200 MHz WNC/Tablet Top Tx1 56/Area Scan (7x9x1): Measurement grid: dx=10mm, dy=10mm
Maximum value of SAR (measured) = 1.19 W/kg
5200 MHz WNC/Tablet Top Tx1 56/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=2mm
Reference Value = 1.397 V/m; Power Drift = -0.02 dB
Peak SAR (extrapolated) = 3.44 W/kg
SAR(1 g) = 0.770 W/kg
Maximum value of SAR (measured) = 1.62 W/kg
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Report Number: SAR.20170305
RF Exposure Lab
Plot 3
DUT: TPN-Q185; Type: Tablet PC; Serial: Eng 2
Communication System: WiFi 802.11a (OFDM, 6 Mbps); Frequency: 5580 MHz; Duty Cycle: 1:1
Medium: MSL 3-6 GHz; Medium parameters used: f = 5580 MHz; σ = 5.71 S/m; εr = 48.46; ρ = 1000 kg/m3
Phantom section: Flat Section
Test Date: Date: 3/20/2017; Ambient Temp: 23 °C; Tissue Temp: 21 °C
Probe: EX3DV4 - SN3833; ConvF(3.52, 3.52, 3.52); Calibrated: 1/23/2017;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1217; Calibrated: 2/10/2017
Phantom: ELI v5.0; Type: QDOVA002AA; Serial: 2037
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Procedure Notes:
5600 MHz WNC/Tablet Top Tx1 116/Area Scan (7x9x1): Measurement grid: dx=10mm, dy=10mm
Maximum value of SAR (measured) = 2.00 W/kg
5600 MHz WNC/Tablet Top Tx1 116/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=2mm
Reference Value = 1.124 V/m; Power Drift = 0.04 dB
Peak SAR (extrapolated) = 4.01 W/kg
SAR(1 g) = 0.980 W/kg
Maximum value of SAR (measured) = 2.04 W/kg
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Report Number: SAR.20170305
RF Exposure Lab
Plot 4
DUT: TPN-Q185; Type: Tablet PC; Serial: Eng 2
Communication System: WiFi 802.11a (OFDM, 6 Mbps); Frequency: 5785 MHz; Duty Cycle: 1:1
Medium: MSL 3-6 GHz; Medium parameters used (interpolated): f = 5785 MHz; σ = 5.955 S/m; εr = 48.153; ρ = 1000 kg/m3
Phantom section: Flat Section
Test Date: Date: 3/20/2017; Ambient Temp: 23 °C; Tissue Temp: 21 °C
Probe: EX3DV4 - SN3833; ConvF(3.74, 3.74, 3.74); Calibrated: 1/23/2017;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1217; Calibrated: 2/10/2017
Phantom: ELI v5.0; Type: QDOVA002AA; Serial: 2037
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Procedure Notes:
5800 MHz WNC/Tablet Top Tx1 157/Area Scan (7x9x1): Measurement grid: dx=10mm, dy=10mm
Info: Interpolated medium parameters used for SAR evaluation.
Maximum value of SAR (measured) = 2.10 W/kg
5800 MHz WNC/Tablet Top Tx1 157/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=2mm
Reference Value = 1.535 V/m; Power Drift = -0.02 dB
Peak SAR (extrapolated) = 4.45 W/kg
SAR(1 g) = 1.03 W/kg
Info: Interpolated medium parameters used for SAR evaluation.
Maximum value of SAR (measured) = 2.17 W/kg
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Report Number: SAR.20170305
Appendix D – Probe Calibration Data Sheets
© 2017 RF Exposure Lab, LLC
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Report Number: SAR.20170305
Appendix E – Dipole Calibration Data Sheets
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Report Number: SAR.20170305
Appendix F – Phantom Calibration Data Sheets
© 2017 RF Exposure Lab, LLC
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Schmid
& Partner
_Engineering
_ _AG
_ _ _ _ _ _IIIIIIiiiiiIIII_rr
........
n __
W ゥ セ
Zeughausstrasse 43, 8004 Zurich, Switzerland
Phone +41 44 245 9700, Fax +41 44 245 9779
info@speag.com, httpJ/www.speag.com
Certificate of Conformity I First Article Inspection
Item
Type No
Series No
Manufacturer
Oval Flat Phantom ELI 4.0
QD OVA 001 B
1003 and higher
Untersee Composites
Knebelstrasse 8
CH-8268 Mannenbach, Switzerland
Tests
Complete tests were made on the prototype units QD OVA 001 AA 1001, QD OVA 001 AB 1002,
pre-series units QD OVA 001 BA 1003-1005 as well as on the series units QD OVA 001 BB, 1006 ft.
Test
Material
thickness
Material
parameters
Material
resistivity
Shape
Requirement
Compliant with the standard
requirements
Dielectric parameters for required
freauencies
The material has been tested to be
compatible with the liquids defined in
the standards if handled and cleaned
according to the instructions.
Thickness of bottom material,
Internal dimensions,
Sagging
compatible with standards from
minimum frequency
Details
Bottom plate:
2.0mm +/- 0.2mm
< 6 GHz: ReI. permittivity 4
+/-1, Loss tangent s 0.05
DGBE based simUlating
liquids.
Observe Technical Note for
material compatibilitv.
Bottom elliptical 600 x 400 mm
Depth 190 mm,
Shape is within tolerance for
filling height up to 155 mm,
Eventual sagging is reduced or
eliminated by support via DUT
Units tested
all
Material
sample
Equivalent
phantoms,
Material
sample
Prototypes,
Sample
testing
Standards
[1] CENELEC EN 50361-2001, « Basic standard for the measurement of the Specific Absorption Rate
related to human exposure to electromagnetic fields from mobile phones (300 MHz - 3 GHz) », July
2001
[2] IEEE 1528-2003, "Recommended Practice for Determining the Peak Spatial-Average Specific
Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement
Techniques, December 2003
[3] IEC 62209 - 1, "Specific Absorption Rate (SAR) in the frequency range of 300 MHz to 3 GHz Measurement Procedure, Part 1: Hand-held mobile wireless communication devices", February
2005
[4] IEC 62209 - 2, Draft, "Human Exposure to Radio Frequency Fields from Handheld and BodyMounted Wireless Communication Devices - Human models, Instrumentation and Procedures Part 2: Procedure to determine the Specific Absorption Rate (SAR) in the head and body for 30
MHz to 6 GHz Handheld and Body-Mounted Devices used in close proximity to the Body.",
February 2005
[5] OET Bulletin 65, Supplement C, "Evaluating Compliance with FCC Guidelines for Human Exposure
to Radiofrequency Electromagnetic Fields", Edition January 2001
Based on the tests above, we certify that this item is in compliance with the standards [1] to [5] if
operated according to the specific requirements and considering the thickness. The dimensions are fully
compliant with [4] from 30 MHz to 6 GHz. For the other standards, the minimum lower frequency limit is
limited due to the dimensional requirements ([1]: 450 MHz, [2]: 300 MHZ!3]: 800 MHz, [5]: 375 MHz)
N[ ウ B ェーャL ⦅・ 。セ ヲ GM
__セ
and possibly further by the dimensions of the DUT.
Date
28.4.2008
Doc No
881 - aD OVA 001 B - D
Signature I Stamp
Schmid & Partner Engineering AG
Zeughauptrasse 43,-8004 Zurich, Switzerland
Phone ttlt 44245 9/00. fェャ yKTQIエTセ U
977.9
i nfo@ipeag,com; http://www.speag.com
Page
1 (1)
Report Number: SAR.20170305
Appendix G – Validation Summary
Per FCC KDB 865664 D02 v01r02, SAR system validation status should be documented to
confirm measurement accuracy. The SAR systems (including SAR probes, system components
and software versions) used for this device were validated against its performance
specifications prior to the SAR measurements. Reference dipoles were used with the required
tissue equivalent media for system validation according to the procedures outlined in FCC KDB
865664 D01 v01r04 and IEEE 1528-2013. Since SAR probe calibrations are frequency
dependent, each probe calibration point was validated at a frequency within the valid frequency
range of the probe calibration point using the system that normally operates with the probe for
routine SAR measurements and according to the required tissue equivalent media.
A tabulated summary of the system validation status including the validation date(s),
measurement frequencies, SAR probes and tissue dielectric parameters has been included.
Table G-1
SAR System Validation Summary
CW Validation
SAR
System
Freq.
(MHz)
Date
2450
Probe
S/N
Probe
Type
Cond.
(σ)
Perm.
(ɛr)
2/01/2017
3833
EX3DV4
2450
Body
1.99
5200
2/02/2017
3833
EX3DV4
5300
2/02/2017
3833
EX3DV4
5200
Body
5300
Body
5500
2/02/2017
3833
EX3DV4
5500
5600
2/03/2017
3833
EX3DV4
5800
2/03/2017
3833
EX3DV4
© 2017 RF Exposure Lab, LLC
Probe Cal.
Point
Modulation Valildation
Sensitivity
Probe
Linearity
Probe
Isotropy
Modulation
Type
Duty
Factor
PAR
52.45
Pass
Pass
Pass
OFDM/TDD
Pass
Pass
5.31
48.86
Pass
Pass
Pass
OFDM
N/A
Pass
5.44
48.66
Pass
Pass
Pass
OFDM
N/A
Pass
Body
5.68
48.21
Pass
Pass
Pass
OFDM
N/A
Pass
5600
Body
5.81
48.23
Pass
Pass
Pass
OFDM
N/A
Pass
5800
Body
6.03
48.06
Pass
Pass
Pass
OFDM
N/A
Pass
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Creation Date2017-12-28 23:04:39
Producing SoftwareGPL Ghostscript 9.18
Document Lastmod2017-12-28 23:04:39
Document TitleRF Exposure SAR Report
Document CreatorAcrobat PDFMaker 11 for Word
Document Author: JMMoulton

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Modify Date                     : 2017:07:10 09:10:35Z
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