7265NG Intel Dual Band Wireless-AC 7265 RF Exposure Info 170224-01.TR02 Intel Mobile Communications

Intel Mobile Communications Intel Dual Band Wireless-AC 7265

FCC ID Filing: PD97265NG
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CERTIFICATE #3478.01
TEST REPORT
EUT Description
Wireless Module installed in Laptop
Brand Name
IntelÂŽ Dual-Band Wireless-AC 7265
Model Name
7265NGW
FCC/IC ID
FCC ID: PD97265NG & PD97265NGU/IC ID: 1000M-7265NG
Date of Test Start/End
2017-04-21 / 2017-04-24
Features
802.11 a/b/g/n/ac Wireless LAN + Bluetooth v4.0
(see section 5)
Description
Platform: TPN-I128 series + Inpaq Connectivity antenna
Applicant
Intel Mobile Communications
Address
100 Center Point Circle, Suite 200 / Columbia, SC 29210 / United States
Contact Person
Steven Hackett
Telephone/Fax/ Email
[email protected]
Reference Standards
FCC 47 CFR Part §2.1093
RSS-102, Issue 5
(see section 1)
RF Exposure Environment
Portable devices - General population/uncontrolled exposure
Maximum SAR Result & Limit
SAR Result
SAR Limit
0.78 W/kg (1g)
1.6 W/kg (1g)
Min. test separation distance
4.11mm
Test Report identification
170224-01.TR02
Revision Control
Rev. 00
This test report revision replaces any previous test report revision
(see section 8)
The test results relate only to the samples tested.
The test report shall not be reproduced in full, without written approval of the laboratory.
Issued by
Reviewed by
Digitally signed by Jose M. FORTES
DN: cn=Jose M. FORTES, o=Intel Mobile
Communications, ou=WRF Lab,
[email protected],
c=FR
Date: 2017.05.23 11:11:19 +02'00'
Digitally signed by Rafael
QUIROZ MORENO
Date: 2017.05.23 10:48:59 +02'00'
Adobe Acrobat DC version:
2015.006.30306
Rafael QUIROZ
(Test Engineer Lead)
Jose M. FORTES
(Technical Officer)
Intel Mobile Communications France S.A.S – WRF Lab
425 rue de Goa – Le Cargo B6 - 06600, Antibes, France
Tel. +33493001400 / Fax +33493001401
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Test Report N° 170224-01.TR02
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Table of Contents
1.
Standards, reference documents and applicable test methods ......................................................................... 4
2.
General conditions, competences and guarantees ............................................................................................. 4
3.
Environmental Conditions ...................................................................................................................................... 4
4.
Test samples ............................................................................................................................................................ 4
5.
EUT Features ............................................................................................................................................................ 5
6.
Remarks and comments ......................................................................................................................................... 7
7.
Test Verdicts summary ........................................................................................................................................... 7
8.
Document Revision History .................................................................................................................................... 7
Annex A.
Test & System Description ....................................................................................................................... 8
SAR DEFINITION ................................................................................................................................................... 8
SPEAG SAR MEASUREMENT SYSTEM .................................................................................................................. 9
A.2.1
A.2.2
A.2.3
A.2.4
A.2.5
SAR Measurement Setup ............................................................................................................................................ 9
E-Field Measurement Probe ...................................................................................................................................... 10
SAM Phantom ........................................................................................................................................................... 10
Flat Phantom ............................................................................................................................................................. 11
Device Positioner....................................................................................................................................................... 11
DATA EVALUATION .............................................................................................................................................. 12
SYSTEM AND LIQUID CHECK ................................................................................................................................ 14
A.4.1
A.4.2
System Check ........................................................................................................................................................... 14
Liquid Check .............................................................................................................................................................. 15
TEST EQUIPMENT LIST ........................................................................................................................................ 16
A.5.1
A.5.2
A.5.3
SAR System #2 ......................................................................................................................................................... 16
Shared Instrumentation ............................................................................................................................................. 16
Tissue Simulant Liquid .............................................................................................................................................. 16
MEASUREMENT UNCERTAINTY EVALUATION ......................................................................................................... 17
RF EXPOSURE LIMITS ......................................................................................................................................... 19
Annex B.
Test Results ............................................................................................................................................. 20
TEST CONDITIONS............................................................................................................................................... 20
B.1.1
B.1.2
B.1.3
Test SAR Test positions relative to the phantom ....................................................................................................... 20
Test signal, Output power and Test Frequencies ...................................................................................................... 20
Evaluation Exclusion and Test Reductions ................................................................................................................ 21
CONDUCTED POWER MEASUREMENTS ................................................................................................................. 23
B.2.1
B.2.2
B.2.3
WLAN 2.4GHz ........................................................................................................................................................... 23
WLAN 5GHz (U-NII) .................................................................................................................................................. 24
Bluetooth ................................................................................................................................................................... 28
TISSUE PARAMETERS MEASUREMENT .................................................................................................................. 29
SYSTEM CHECK MEASUREMENTS ........................................................................................................................ 29
SAR TEST RESULTS ........................................................................................................................................... 30
B.5.1
B.5.2
B.5.3
B.5.4
B.5.5
B.5.6
802.11b/g/n – 2.4GHz - DTS ..................................................................................................................................... 30
802.11a/n/ac – 5.3 GHz – U-NII-2A ........................................................................................................................... 30
802.11a/n/ac – 5.6 GHz – U-NII-2C........................................................................................................................... 30
802.11a/n/ac – 5.8 GHz – U-NII-3 ............................................................................................................................. 30
SAR Measurement Variability .................................................................................................................................... 30
Simultaneous Transmission SAR Evaluation............................................................................................................. 31
Annex C.
Test System Plots.................................................................................................................................... 32
Annex D.
TSL Dielectric Parameters ...................................................................................................................... 45
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BODY DTS 2450MHZ ......................................................................................................................................... 45
BODY 5200MHZ-5800MHZ ................................................................................................................................ 46
Annex E.
Calibration Certificates ........................................................................................................................... 48
Annex F.
Photographs ............................................................................................................................................ 50
TEST SAMPLE ..................................................................................................................................................... 50
TEST POSITIONS.................................................................................................................................................. 51
ANTENNA HOST PLATFORM LOCATION AND ADJACENT EDGE POSITIONS RELATIVE TO THE BODY ............................... 52
PHANTOM LIQUID LEVEL DURING MEASUREMENTS ................................................................................................. 53
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Test Report N° 170224-01.TR02
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1. Standards, reference documents and applicable test methods
1. FCC 47 CFR Part §2.1093 – Radiofrequency radiation exposure evaluation: portable devices.
2. FCC OET KDB 248227 D01 – SAR guidance for IEEE 802.11 (Wi-Fi) transmitters.
3. FCC OET KDB 447498 D01 –RF Exposure Procedures and Equipment Authorization Policies for Mobile and
Portable Devices.
4. FCC OET KDB 616217 D04 – SAR Evaluation Considerations for Laptop, Notebook, Netbook and Tablet
Computers.
5. FCC OET KDB 865664 D01 – SAR Measurement Requirements for 100 MHz to 6 GHz.
6. FCC OET KDB 865664 D02 – RF Exposure Compliance Reporting and Documentation Considerations.
7. IC RSS 102, Issue 5 – Radio Frequency (RF) Exposure Compliance of Radio communication Apparatus (All
Frequency Bands).
8. IC Notice 2012-DRS0529 – SAR correction for measured conductivity and relative permittivity based on IEC
62209-2 standard.
9. IC Notice 2012-DRS1203 – Applicability of latest FCC RF Exposure KDB procedures (publication date October
24, 2012) and other procedures.
10. IEEE Std 1528-2013 – IEEE Recommended Practice Determining the Peak Spatial-Average Specific Absorption
Rate (SAR) in the Human Head from Wireless Communication Devices: Measurement Techniques…
2. General conditions, competences and guarantees
 Intel Mobile Communications France SAS Wireless RF Lab (Intel WRF Lab) is an ISO/IEC 17025:2005 testing
laboratory accredited by the American Association for Laboratory Accreditation (A2LA) with the certificate number
3478.01.
 Intel Mobile Communications France SAS Wireless RF Lab (Intel WRF Lab) is an Accredited Test Firm recognized
by the FCC, with Designation Number FR0011.
 Intel Mobile Communications France SAS Wireless RF Lab (Intel WRF Lab) is a Registered Test Site listed by
IC, with IC Assigned Code 1000Y.
 Intel WRF Lab only provides testing services and is committed to providing reliable, unbiased test results and
interpretations.
 Intel WRF Lab is liable to the client for the maintenance of the confidentiality of all information related to the item
under test and the results of the test.
 Intel WRF Lab has developed calibration and proficiency programs for its measurement equipment to ensure
correlated and reliable results to its customers.
 This report is only referred to the item that has undergone the test.
 This report does not imply an approval of the product by the Certification Bodies or competent Authorities.
 Complete or partial reproduction of the report cannot be made without written permission of Intel WRF Lab.
3. Environmental Conditions

At the site where the measurements were performed the following limits were not exceeded during the tests:
Temperature
23C Âą 1ÂşC
Humidity
50% Âą 10%
Liquid Temperature
22ÂşC Âą 1ÂşC
4. Test samples
Sample
Control #
Description
Model
Serial #
Date of receipt
#01
170224-01.S06
Wireless
Module
installed in
Laptop
7265NGW +
TPN-I128 series
WiFi MAC:
7C:B0:C2:D4:1E:8F
BT MAC:
7C:B0:C2:D4:1E:93
2017-04-19
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Test Report N° 170224-01.TR02
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5. EUT Features
Brand Name
Model Name
FCC/IC ID
Software Version
Driver Version
Prototype / Production
Host Identification
Exposure Conditions
IntelÂŽ Dual-Band Wireless-AC 7265
7265NGW
FCC ID: PD97265NG & PD97265NGU/IC ID: 1000M-7265NG
1.7.7-02086
18.40.0.9
Production
TPN-I128 series
Body worn
2.4GHz (2400.0 – 2483.5 MHz)
5.2GHz (5150.0 – 5250.0 MHz)
5.3GHz (5250.0 – 5350.0 MHz)
5.6GHz (5470.0 – 5725.0 MHz)
5.8GHz (5725.0 – 5825.0 MHz)
2.4GHz (2400.0 – 2483.5 MHz)
802.11b/g/n
802.11a/n/ac
Supported Radios
Bluetooth
Main WLAN: Inpaq PIFA antenna. WiFi 2.4GHz & 5GHz
S/N: 6036B0191701 (WA-F-LBLB-02-019)
Aux WLAN: Inpaq PIFA antenna. WiFi 2.4GHz & 5GHz and BT.
S/N: 6036B0191701 (WA-F-LBLB-02-019)
Antenna Information
See Annex F for more details on antennas location.
Simultaneous Transmission
Configurations
Additional Information
WLAN 2.4GHz Main + BT Aux
WLAN 2.4GHz Main + WLAN 2.4GHz Aux
WLAN 5GHz Main + BT Aux
WLAN 5GHz Main + WLAN 5GHz Aux
No WWAN transmitter is considered in this report
5.60-5.65 GHz band (TDWR) is supported by the device
Band gap is supported by the device
Supported Radios
Mode
802.11b/g/n
802.11a/n/ac
Duty Cycle
Modulation
BPSK
QPSK
16QAM
64QAM
BPSK
QPSK
16QAM
64QAM
256QAM
GFSK
π/4 DQPSK
8DPSK
GFSK
100%
100%
BDR/EDR v4.0
78%
Bluetooth LE v4.0
64%
Band
UL Freq Range
(MHz)
Measured Max.
Conducted
Power (dBm)
2.4GHz
2400-2483.5
17.24
5.2GHz
5.3GHz
5.6GHz
5150-5250
5250-5350
5475-5725
NM
16.00
16.00
5.8GHz
5725-5850
16.00
2.4GHz
2400-2483.5
4.44
2.4GHz
2400-2483.5
2.90
NM: Not Measured
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Maximum Output power specification + Tune up tolerance limit
Equipment Class
DTS
U-NII-1
U-NII-2A
U-NII-2C
U-NII-3
BT
SISO mode
Mode
BW (MHz)
Main (dBm)
Aux (dBm)
802.11b
20
17.25
17.25
802.11g
20
17.25
17.25
802.11n20
20
17.25
17.25
802.11n40
40
16.25
16.25
802.11a
20
14.75
14.75
802.11n20
20
14.75
14.75
802.11n40
40
16.00
16.00
802.11ac80
80
13.25
13.25
802.11a
20
16.00
15.75
802.11n20
20
16.00
15.75
802.11n40
40
16.00
16.00
802.11ac80
80
13.25
13.25
802.11a
20
16.00
16.00
802.11n20
20
16.00
16.00
802.11n40
40
16.00
16.00
802.11ac80
80
16.00
16.00
802.11a
20
16.00
15.75
802.11n20
20
16.00
15.75
802.11n40
40
16.00
16.00
802.11ac80
80
16.00
16.00
Bluetooth v4.0 BDR
20
5.30
Bluetooth v4.0 EDR2
20
1.30
Bluetooth v4.0 EDR3
20
1.20
BLE
3.20
The conducted values are obtained by applying the BIOS SAR power values to the 7265NGW Intel module installed in the TPN-I128
Model identified in this report, as requested by the customer.
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6. Remarks and comments
1. Only the plots for the test positions with the highest measured SAR per band/mode are included in Annex C as
required per FCC OET KDB 865664 D02, paragraph 2.3.8.
7. Test Verdicts summary
Standard
802.11b/g/n
Band
2.4GHz
5.2GHz
5.3GHz
5.6GHz
5.8GHz
2.4GHz
802.11a/n/ac
Bluetooth
Highest Reported SAR (1g) (W/kg)
0.55
NM
0.56
0.68
0.78
NM
Verdict
NA
NA
P: Pass
F: Fail
NM: Not Measured
NA: Not Applicable
According to the FCC OET KDB 690783 D01, this is the summary of the values for the Grant Listing:
Exposure Condition
Body Worn
Simultaneous Tx
Highest Reported SAR (1g) (W/kg)
Equipment Class
DTS
DSS
0.55
0.18
Sum-SAR: 0.81
Sum-SAR: 0.73
U-NII
0.78
Sum-SAR: 1.29
Considering the results of the performed test according to FCC 47CFR Part 2.1093 and IC RSS 102, Issue 5 the item
under test is IN COMPLIANCE with the requested specifications specified in Section1. Standards, reference documents
and applicable test methods
8. Document Revision History
Revision #
Rev. 00
Date
2017-05-22
Modified by
R. Quiroz
Revision Details
First Issue
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Annex A. Test & System Description
SAR Definition
Specific Absorption rate is defined as the time derivative of the incremental energy (dW) absorbed by (dissipated in)
and incremental mass (dm) contained in a volume element (dV) of a given density (ρ).
𝑆𝐴𝑅 =
𝑑 𝑑𝑊
𝑑
𝑑𝑊
¡(
)=
¡(
𝑑𝑡 𝑑𝑚
𝑑𝑡 𝜌 · 𝑑𝑉
SAR is expressed in units of watts per kilogram (W/kg). SAR can be related to the electric field at a point by
𝑆𝐴𝑅 =
Where:
𝜎|𝐸|2
𝜌
σ = Conductivity of the tissue (S/m)
ρ = Mass density of the tissue (kg/m3)
E = RMS electric field strength (V/m)
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SPEAG SAR Measurement System
A.2.1 SAR Measurement Setup
The DASY5 system for performing compliance tests consists of the following items:












A standard high precision 6-axis robot (StaĂźbli TX/RX family) with controller, teach pendant and software. It includes
an arm extension for accommodating the data acquisition electronics (DAE)
An isotropic field probe optimized and calibrated for the targeted measurements.
A data acquisition electronics (DAE) which performs the signal amplification, signal multiplexing, AD-conversion,
offset measurements, mechanical surface detection, collision detection, etc. The unit is battery powered with
standard or rechargeable batteries. The signal is optically transmitted to the EOC.
The Electro-optical Converter (EOC) performs the conversion from optical to electrical signals for the digital
communication to the DAE. The EOC signal is transmitted to the measurement server.
The function of the measurement server is to perform the time critical tasks such as signal filtering, control of the
robot operation and fast movements interrupts.
The Light Beam used is for probe alignment. This improves the (absolute) accuracy of the probe positioning.
A computer running Win7 professional operating system and the DASY5 software.
Remote control and teach pendant as well as additional circuitry for robot safety such as warning lamps, etc.
The phantom, the device holder and other accessories according to the targeted measurement.
Tissue simulating liquid.
System Validation dipoles.
Network emulator or RF test tool.
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A.2.2 E-Field Measurement Probe
The probe is constructed using three orthogonal dipole sensors arranged on an
interlocking, triangular prism core. The probe has built-in shielding against static charges
and is contained within a PEEK cylindrical enclosure material at the tip.
The probe’s characteristics are:
30MHz – 6GHz
Frequency Range
Length
337 mm
Probe tip external diameter
2.5 mm
Typical distance between dipoles and the probe tip
1 mm
Axial Isotropy (in human-equivalent liquids)
Âą0.3 dB
Hemispherical Isotropy (in human-equivalent liquids)
Âą0.5 dB
Linearity
Âą0.2 dB
Maximum operating SAR
Lower SAR detection threshold
100 W/kg
0.001 W/kg
A.2.3 SAM Phantom
The shell corresponds to the specifications of the Specific Anthropomorphic Mannequin (SAM) phantom defined in IEEE
1528 and IEC 62209-1. 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 evaporation of the liquid. Reference markings on the phantom allow
the complete setup of all predefined phantom positions and measurement grids by teaching three points with the robot.
The phantom’s characteristics are:
Material
Vinylester, glass fiber reinforced (VE-GF)
Shell thickness
2 mm Âą 0.2 mm
Shell thickness
at ERP
6 Âą 0.2 mm
Filling volume
25 Liters
Dimensions
Length: 1000mm / Width: 500mm
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A.2.4 Flat Phantom
Phantom for compliance testing of handheld and body-mounted wireless devices in the frequency range of 30 MHz to
6 GHz. ELI is fully compatible with the IEC 62209-2 standard and all known tissue simulating liquids. ELI has been
optimized regarding its performance and can be integrated into our standard phantom tables. A cover prevents
evaporation of the liquid. Reference markings on the phantom allow installation of the complete setup, including all
predefined phantom positions and measurement grids, by teaching three points. The phantom is compatible with all
SPEAG dosimetric probes and dipoles.
The phantom’s characteristics are:
Material
Vinylester, glass fiber reinforced (VE-GF)
Shell thickness
2 mm Âą 0.2 mm
Filling volume
30 Liters approx.
Dimensions
Major axis: 600mm / Minor axis: 400mm
A.2.5 Device Positioner
The SAR in the phantom is approximately inversely proportional to the square of the distance between the source and
the liquid surface. For a source at 5 mm distance, a positioning uncertainty of 0.5 mm would produce a SAR uncertainty
of 20%. Accurate device positioning is therefore crucial for accurate and repeatable measurements. The positions in
which the devices must be measured are defined by the standards.
The DASY device holder is designed to cope with the different positions given in
the standard. It has two scales for device rotation (with respect to the body axis)
and device inclination (with respect to the line between the ear reference points).
The rotation center for both scales is the ear reference point (ERP). Thus the
device needs no repositioning when changing the angles.
The DASY device holder is constructed of low-loss POM material having the
following dielectric parameters: relative permittivity ξ=3 and loss tangent δ=0.02.
The amount of dielectric material has been reduced in the closest vicinity of the
device, since measurements have suggested that the influence of the clamp on
the test results could thus be lowered.
A simple but effective and easy-to-use extension for the Mounting Device;
facilitates testing of larger devices according to IEC 62209-2 (e.g., laptops,
cameras, etc.); lightweight and fits easily on the upper part of the Mounting Device
in place of the phone positioner. The extension is fully compatible with the Twin
SAM, ELI and other Flat Phantoms.
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Test Report N° 170224-01.TR02
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Data Evaluation

Power Reference measurement
The robot measures the E field in a specified reference position that can be either the selected section’s grid reference
point or a user point in this section at 4mm of the inner surface of the phantom, 2mm for frequencies above 3GHz.

Area Scan
Measurement procedures for evaluating SAR from wireless handsets typically start with a coarse measurement grid to
determine the approximate location of the local peak SAR values. This is known as the area-scan procedure. The SAR
distribution is scanned along the inside surface of one side of the phantom head, at least for an area larger than the
projection of the handset and antenna. The distance between the measured points and phantom surface should be less
than 8 mm, and should remain constant (with variation less than Âą 1 mm) during the entire scan in order to determine
the locations of the local peak SAR with sufficient accuracy. The angle between the probe axis and the surface normal
line is recommended but not required to be less than 30°. If this angle is larger than 30° and the closest point on the
probe-tip housing to the phantom surface is closer than a probe diameter, the boundary effect may become larger and
polarization dependent. This additional uncertainty needs to be analyzed and accounted for. To achieve this, modified
test procedures and additional uncertainty analyses not described in this recommended practice may be required. The
measurement and interpolation point spacing should be chosen such as to allow identification of the local peak locations
to within one-half of the linear dimension of a side of the zoom-scan volume. Because a local peak having specific
amplitude and steep gradients may produce a lower peak spatial-average SAR compared to peaks with slightly lower
amplitude and less steep gradients, it is necessary to evaluate these other peaks as well. However, since the spatial
gradients of local SAR peaks are a function of the wavelength inside the tissue-equivalent liquid and the incident
magnetic field strength, it is not necessary to evaluate local peaks that are less than 2 dB or more below the global
maximum peak. Two-dimensional spline algorithms (Brishoual et al. 2001; Press et al., 1996) are typically used to
determine the peaks and gradients within the scanned area. If a peak is found at a distance from the scan border of less
than one-half the edge dimension of the desired 1 g or 10 g cube, the measurement area should be enlarged if possible.

Zoom Scan
To evaluate the peak spatial-average SAR values for 1 g or 10 g cubes, fine resolution volume scans, called zoom
scans, are performed at the peak SAR locations identified during the area scan. The minimum zoom scan volume size
should extend at least 1.5 times the edge dimension of a 1 g cube in all directions from the center of the scan volume,
for both 1 g and 10 g peak spatial-average SAR evaluations. Along the phantom curved surfaces, the front face of the
volume facing the tissue/liquid interface conforms to the curved boundary, to ensure that all SAR peaks are captured.
The back face should be equally distorted to maintain the correct averaging mass. The flatness and orientation of the
four side faces are unchanged from that of a cube whose orientation is within ¹ 30° of the line normal to the phantom at
the center of the cube face next to the phantom surface. The peak local SAR locations that were determined in the area
scan (interpolated values) should be used for the centers of the zoom scans. If a scan volume cannot be centered due
to proximity of a phantom shape feature, the probe should be tilted to allow scan volume enlargement. If probe tilt is not
feasible, the zoom-scan origin may be shifted, but not by more than half of the 1 g or 10 g cube edge dimension.
After the zoom-scan measurement, extrapolations from the closest measured points to the surface, for example along
lines parallel to the zoom-scan centerline, and interpolations to a finer resolution between all measured and extrapolated
points are performed. Extrapolation algorithm considerations are described in 6.5.3, and 3-D spline methods (Brishoual
et al., 2001; Kreyszig, 1983; Press et al., 1996) can be used for interpolation. The peak spatial-average SAR is finally
determined by a numerical averaging of the local SAR values in the interpolation grid, using for example a trapezoidal
algorithm for the integration (averaging).
In some areas of the phantom, such as the jaw and upper head regions, the angle of the probe with respect to the line
normal to the surface may be relatively large, e.g., greater than Âą 30Âş, which could increase the boundary effect error to
a larger level. In these cases, during the zoom scan a change in the orientation of the probe, the phantom, or both is
recommended but not required for the duration of the zoom scan, so that the angle between the probe axis and the line
normal to the surface is within 30Âş for all measurement points.
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Test Report N° 170224-01.TR02

Rev. 00
Power Drift measurement
The robot re-measures the E-Field in the same reference location measured at the Power Reference. The drift
measurement gives the field difference in dB from the first to the last reference reading. This allows a user to monitor
the power drift of the device under test that must remain within a maximum variation of Âą5%.

Post-processing
The procedure for spatial peak SAR evaluation has been implemented according to the IEEE1528 and IEC 62209-1/2
standards. It can be conducted for 1g and 10g.
The software allows evaluations that combine measured data and robot positions, such as:




Maximum search
Extrapolation
Boundary correction
Peak search for averaged SAR
Interpolation between the measured points is performed when the resolution of the grid is not fine enough to compute
the average SAR over a given mass.
Extrapolation routines are used to obtain SAR values between the lowest measurement points and the inner phantom
surface. The extrapolation is determined by the surface detection distance and the probe sensor offset. Several
measurements at different distances are necessary for the extrapolation.
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System and Liquid Check
A.4.1 System Check
The system performance check verifies that the system operates within its specifications. System and operator errors
can be detected and corrected. It is recommended that the system performance check be performed prior to any usage
of the system in order to guarantee reproducible results.
The system performance check uses normal SAR measurements in a simplified setup with a well characterized source.
This setup was selected to give a high sensitivity to all parameters that might fail or vary over time. The system check
does not intend to replace the calibration of the components, but indicates situations where the system uncertainty is
exceeded due to drift or failure.
In the simplified setup for system check, the EUT is replaced by a calibrated dipole and the power source is replaced
by a controlled continuous wave generated by a signal generator. The calibrated dipole must be placed beneath the flat
phantom section of the phantom at the correct distance.
The equipment setup is shown below:





Signal Generator
Amplifier
Directional coupler
Power meter
Calibrated dipole
First, the power meter PM1 (including attenuator Att1) is connected to the cable to measure the forward power at the
location of the connector (x) to the system check source. The signal generator is adjusted for the desired forward
power at the connector as read by power meter PM1 after attenuation Att1 and also as coupled through Att2 to PM2.
After connecting the cable to the source, the signal generator is readjusted for the same reading at power meter
PM2.
SAR results are normalized to a forward power of 1W to compare the values with the calibration reports results as
described at IEEE 1528 and IEC 62209 standards.
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A.4.2 Liquid Check
The dielectric parameters check is done prior to the use of the tissue simulating liquid. The verification is made by
comparing the relative permittivity and conductivity to the values recommended by the applicable standards.
The liquid verification was performed using the following test setup:








VNA (Vector Network Analyzer)
Open-Short-Load calibration kit
RF Cable
Open-Ended Coaxial probe
DAK software tool
SAR Liquid
De-ionized water
Thermometer
These are the target dielectric properties of the tissue-equivalent liquid material as defined in FCC OET KDB 865664
D01.
Frequency
Body SAR
(MHz)
r (F/m)
 (S/m)
150
61.9
0.80
300
58.2
0.92
450
56.7
0.94
835
55.2
0.97
900
55.0
1.05
1450
54.0
1.30
1800-2000
53.3
1.52
2450
52.7
1.95
3000
52.0
2.73
5800
48.2
6.00
(r = relative permittivity,  = conductivity and  = 1000 kg/m3)
The measurement system implement a SAR error compensation algorithm as documented in IEEE Std 1528-2013
(equivalent to draft standard IEEE P1528-2011) to automatically compensate the measured SAR results for deviations
between the measured and required tissue dielectric parameters (applied to only scale up the measured SAR, and not
downward) so, according to FCC OET KDB 865664 D01, the tolerance for ξr and σ may be relaxed to ¹ 10%.
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Test Report N° 170224-01.TR02
Rev. 00
Test Equipment List
A.5.1 SAR System #2
ID #
Device
Type/Model
Serial Number
Manufacturer
Cal. Date
Cal. Due Date
0236
Dosimetric E-field
Probe
EX3DV4
3978
SPEAG
2016-06-21
2017-06-21
0242
Data Acquisition
Electronics
DAE4
1429
SPEAG
2017-02-07
2018-02-07
0451
6-axis Robot
TX60 L
F16/55FXA1/A/01
STAÜBLI
NA
NA
0453
Robot Controller
CS8C
F16/55FXA1/C/01
STAÜBLI
NA
NA
0455
Measurement
Server
DASY6
P/N: SE UMS 028 BB
1489
SPEAG
NA
NA
0456
Electro-Optical
Converter
EOC60
1098
SPEAG
NA
NA
0459
Light Beam Unit
SE UKS 030 AA
Di-soric
NA
NA
0460
Oval Flat Phantom
ELI v8.0
2048
SPEAG
NA
NA
0462
Measurement SW
DASY52
v52.8.8.1258
SPEAG
NA
NA
0466
Laptop Holder
P/N SM LH1 001 CD
SPEAG
NA
NA
0555
Post processing
SW
SEMCAD X
v14.6.10
SPEAG
NA
NA
A.5.2 Shared Instrumentation
ID #
Device
Type/Model
Serial Number
Manufacturer
Cal. Date
Cal. Due Date
0098
USB Power Sensor
NRP-Z81
102278
R&S
2015-09-10
2017-09-10
0099
USB Power Sensor
NRP-Z81
102279
R&S
2015-09-10
2017-09-10
0114
Vector Signal
Generator
ESG E4438C
MY45092885
Agilent
NA
NA
0124
5GHz System
Validation Dipole
D5GHzv2
1164
SPEAG
2015-06-18
2017-06-18
0170
Power Amplifier
SAM-01
151922
ETS-Lindgren
NA
NA
0224
Liquid
measurement SW
DAKS-3.5
V2.20.533
SPEAG
NA
NA
0230
Vector
Reflectometer
PLANAR R140
0131013
Copper
Mountain
Technologies
2015-08-03
2017-08-03
0237
Dielectric Probe Kit
DAKS-3.5
1037
SPEAG
2016-06-14
2018-06-14
0239
2450MHz System
Validation Dipole
D2450V2
937
SPEAG
2016-06-20
2018-06-20
0398
Temperature &
Humidity Logger
TR-72NW-H + HHA-3151
Logger:
62180216
Sensor:
0202622A
TandD
2016-02-01
2018-02-01
0408
Thermometer
TESTO 922
33622932
Testo
2016-05-19
2018-05-19
0412
Coupler
CD0.5-8-20-30
1251-002
Amd-group
NA
NA
A.5.3 Tissue Simulant Liquid
TSL
Manufacturer / Model
Freq Range
(MHz)
Main Ingredients
Body WideBand
SPEAG MBBL600-6000V6
Batch 160603-01
600-6000
Ethanediol, Sodium petroleum sulfonate,
Hexylene Glycol / 2-Methyl-pentane-2.4diol, Alkoxylated alcohol
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Measurement Uncertainty Evaluation
The system uncertainty evaluation is shown in the below table:
DASY6 Uncertainty Budget
According to IEEE 1528-2013 and IEC 62209-1/2016 (0.3 - 6 GHz range)
Error Description
Measurement System
Probe Calibration
Axial Isotropy
Hemispherical Isotropy
Boundary Effects
Linearity
System Detection Limits
Modulation Response
Readout Electronics
Response Time
Integration Time
RF Ambient Noise
RF Ambient Reflections
Probe Positioner
Probe Positioning
Max. SAR Eval.
Test Sample Related
Device Positioning
Device Holder
Power Drift
Power Scaling
Phantom and Setup
Phantom Uncertainty
SAR correction
Liquid Conductivity (mea.)DAK
Liquid Permittivity (mea.) DAK
Temp. unc. - Conductivity BB
Temp. unc. - Permittivity BB
Uncert.
value
Prob.
Dist.
Div.
(ci)
1g
(ci)
10g
Std. Unc.
(1g)
Std. Unc.
(10g)
(vi)
veff
Âą6.55 %
Âą4.7 %
Âą9.6 %
Âą2.0 %
Âą4.7 %
Âą1.0 %
Âą2.4 %
Âą0.3 %
Âą0.8 %
Âą2.6 %
Âą3.0 %
Âą3.0 %
Âą0.04 %
Âą0.8 %
Âą4.0 %
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
0.7
0.7
0.7
0.7
Âą6.55 %
Âą1.9 %
Âą3.9 %
Âą1.2 %
Âą2.7 %
Âą0.6 %
Âą1.4 %
Âą0.3 %
Âą0.5 %
Âą1.5 %
Âą1.7 %
Âą1.7 %
Âą0.0 %
Âą0.5 %
Âą2.3 %
Âą6.55 %
Âą1.9 %
Âą3.9 %
Âą1.2 %
Âą2.7 %
Âą0.6 %
Âą1.4 %
Âą0.3 %
Âą0.5 %
Âą1.5 %
Âą1.7 %
Âą1.7 %
Âą0.0 %
Âą0.5 %
Âą2.3 %
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
Âą2.9 %
Âą3.6 %
Âą5.0 %
Âą0.0 %
√3
√3
Âą2.9 %
Âą3.6 %
Âą2.9 %
Âą0.0 %
Âą2.9 %
Âą3.6 %
Âą2.9 %
Âą0.0 %
145
∞
∞
Âą6.6 %
Âą1.9 %
Âą2.5 %
Âą2.5 %
Âą3.4 %
Âą0.4 %
√3
√3
√3
√3
√3
√3
0.78
0.23
0.78
0.23
0.84
0.71
0.26
0.71
0.26
Âą3.8 %
Âą1.9 %
Âą2.0 %
Âą0.6 %
Âą1.5 %
Âą0.1 %
Âą3.8 %
Âą1.6 %
Âą1.8 %
Âą0.7 %
Âą1.4 %
Âą0.1 %
∞
∞
∞
∞
∞
∞
Âą11.9 %
Âą23.8 %
Âą11.8 %
Âą23.6 %
569
Combined Std. Uncertainty
Expanded STD Uncertainty
SPEAG System Uncertainty budget (IEEE 1528-2013 & IEC 62209-1:2011)
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DASY6 Uncertainty Budget
According to IEC 62209-2/2010 (30 MHz - 6 GHz range)
Error Description
Measurement System
Probe Calibration
Axial Isotropy
Hemispherical Isotropy
Linearity
Modulation Response
System Detection Limits
Boundary Effects
Readout Electronics
Response Time
Integration Time
RF Ambient Noise
RF Ambient Reflections
Probe Positioner
Probe Positioning
Post-processing
Test Sample Related
Device Holder
Test sample Positioning
Power Scaling
Power Drift
Phantom and Setup
Phantom Uncertainty
SAR correction
Liquid Conductivity (mea.)DAK
Liquid Permittivity (mea.) DAK
Temp. unc. - Conductivity BB
Temp. unc. - Permittivity BB
Uncert.
value
Prob.
Dist.
Div.
(ci)
1g
(ci)
10g
Std. Unc.
(1g)
Std. Unc.
(10g)
(vi)
veff
Âą6.55 %
Âą4.7 %
Âą9.6 %
Âą4.7 %
Âą2.4 %
Âą1.0 %
Âą2.0 %
Âą0.3 %
Âą0.8 %
Âą2.6 %
Âą3.0 %
Âą3.0 %
Âą0.04 %
Âą0.8 %
Âą4.0 %
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
0.7
0.7
0.7
0.7
Âą6.55 %
Âą1.9 %
Âą3.9 %
Âą2.7 %
Âą1.4 %
Âą0.6 %
Âą1.2 %
Âą0.3 %
Âą0.5 %
Âą1.5 %
Âą1.7 %
Âą1.7 %
Âą0.0 %
Âą0.5 %
Âą2.3 %
Âą6.55 %
Âą1.9 %
Âą3.9 %
Âą2.7 %
Âą1.4 %
Âą0.6 %
Âą1.2 %
Âą0.3 %
Âą0.5 %
Âą1.5 %
Âą1.7 %
Âą1.7 %
Âą0.0 %
Âą0.5 %
Âą2.3 %
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
Âą3.6 %
Âą2.9 %
Âą0.0 %
Âą5.0 %
√3
√3
Âą3.6 %
Âą2.9 %
Âą0.0 %
Âą2.9 %
Âą3.6 %
Âą2.9 %
Âą0.0 %
Âą2.9 %
145
∞
∞
Âą7.6 %
Âą1.9 %
Âą2.5 %
Âą2.5 %
Âą3.4 %
Âą0.4 %
√3
√3
√3
√3
√3
√3
0.78
0.23
0.78
0.23
0.84
0.71
0.26
0.71
0.26
Âą4.4 %
Âą1.9 %
Âą2.0 %
Âą0.6 %
Âą1.5 %
Âą0.1 %
Âą4.4 %
Âą1.6 %
Âą1.8 %
Âą0.7 %
Âą1.4 %
Âą0.1 %
∞
∞
∞
∞
∞
∞
Âą12.1 %
Âą24.1 %
Âą12.0 %
Âą24.0 %
605
Combined Std. Uncertainty
Expanded STD Uncertainty
SPEAG System Uncertainty budget (IEC 62209-2:2010)
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RF Exposure Limits
SAR assessments have been made in line with the requirements of FCC 47 CFR Part §2.1093 and RSS 102, Issue 5
on the limitation of exposure of the general population / uncontrolled exposure for portable devices.
Exposure Type
General Population /
Uncontrolled Environment
Peak spatial-average SAR
(averaged over any 1 gram of tissue)
1.6 W/kg
0.08 W/kg
Whole body average SAR
Peak spatial-average SAR (extremities)
(averaged over any 10 grams of tissue)
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Test Report N° 170224-01.TR02
Rev. 00
Annex B. Test Results
Test Conditions
B.1.1 Test SAR Test positions relative to the phantom
The device under test was an IntelÂŽ Dual-Band Wireless-AC 7265 card inside a laptop host platform (TPN-I128 series)
using a set of PIFA antennas. The card was operated utilizing proprietary software (DRTU version 1.7.7-02086) and
each channel was measured using a broadband power meter to determine the maximum average power.
According to FCC OET KDB 616217 D04, laptop position should be tested for SAR compliance with the display screen
opened at an angle of 90° to the keyboard compartment and the notebook bottom surface should be touching the
phantom.
Bluetooth operation was not evaluated as the power level for the BT transmitter was 2.77mW which is excluded per
KDB 447498 D01 v05r02 section 4.3.1 page 11.
See B.1.3.1 SAR evaluation exclusion for a more detailed list of the applied reductions.
B.1.2 Test signal, Output power and Test Frequencies
For 802.11 transmission modes the device was put into operation by using an own control software to program the test
mode required to select the continuous transmission with 100% duty cycle.
The output power of the device was set to transmit at maximum power for all tests.
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B.1.3 Evaluation Exclusion and Test Reductions
B.1.3.1 SAR evaluation exclusion
The SAR Test Exclusion Threshold in FCC OET KDB 447498 D01 v06 can be applied to determine SAR test exclusion
for adjacent edge configurations. For 100MHz to 6GHz and test separation distances ≤50mm, the 1-g and 10-g SAR
test exclusion thresholds are determined by the following formula:
[(max. power of channel, including tune − up tolerance, mW)⁄(min. test separation distance, mm)] ∙ [√𝑓(𝐺𝐻𝑧) ]
(1)
≤ 3.0 𝑓𝑜𝑟 1𝑔 𝑆𝐴𝑅, 𝑎𝑛𝑑 ≤ 7.5 𝑓𝑜𝑟 10𝑔 𝑒𝑥𝑡𝑟𝑒𝑚𝑖𝑡𝑦 𝑆𝐴𝑅
Where:




f(GHz) is the RF channel transmit frequency in GHz
Power and distance are rounded to the nearest mW and mm before calculation
The result is rounded to one decimal place for comparison
The values 3.0 and 7.5 are referred to as numeric thresholds
The test exclusions are applicable only when the minimum test separation distance is ≤ 50 mm, and for transmission
frequencies between 100 MHz and 6 GHz. When the minimum test separation distance is < 5 mm, a distance of 5 mm
is applied to determine SAR test exclusion.
For test separation distances > 50 mm, the 1-g and 10-g SAR test exclusion thresholds are determined using the
following formulas:
〈(𝑃𝑜𝑤𝑒𝑟 𝑎𝑙𝑙𝑜𝑤𝑒𝑑 𝑎𝑡 𝑛𝑢𝑚𝑒𝑟𝑖𝑐 𝑡ℎ𝑟𝑒𝑠ℎ𝑜𝑙𝑑 𝑓𝑜𝑟 50 𝑚𝑚 𝑖𝑛 (1)) + (𝑡𝑒𝑠𝑡 𝑠𝑒𝑝𝑎𝑟𝑎𝑡𝑖𝑜𝑛 𝑑𝑖𝑠𝑡𝑎𝑛𝑐𝑒 − 50 𝑚𝑚) ∙ (𝑓𝑀𝐻𝑧 ⁄150)〉𝑚𝑊,
𝑓𝑜𝑟 100𝑀𝐻𝑧 𝑡𝑜 1500𝑀𝐻𝑧
〈(𝑃𝑜𝑤𝑒𝑟 𝑎𝑙𝑙𝑜𝑤𝑒𝑑 𝑎𝑡 𝑛𝑢𝑚𝑒𝑟𝑖𝑐 𝑡ℎ𝑟𝑒𝑠ℎ𝑜𝑙𝑑 𝑓𝑜𝑟 50 𝑚𝑚 𝑖𝑛 (1)) + (𝑡𝑒𝑠𝑡 𝑠𝑒𝑝𝑎𝑟𝑎𝑡𝑖𝑜𝑛 𝑑𝑖𝑠𝑡𝑎𝑛𝑐𝑒 − 50 𝑚𝑚) ∙ 10)〉𝑚𝑊,
𝑓𝑜𝑟 1500𝑀𝐻𝑧 𝑎𝑛𝑑 ≤ 6𝐺𝐻𝑧
(2)
(3)
Output power
53.1
39.8
39.8
39.8
39.8
53.1
39.8
39.8
39.8
39.8
3.4
SAR
17.25
16.00
16.00
16.00
16.00
17.25
16.00
16.00
16.00
16.00
5.3
Laptop
WLAN
Aux
DTS
U-NII-1
U-NII-2A
U-NII-2C
U-NII-3
DTS
U-NII-1
U-NII-2A
U-NII-2C
U-NII-3
BT
mW
WLAN
Main
Band
Name
dBm
LAN
Antenna
<50
<50
<50
<50
<50
<50
<50
<50
<50
<50
<50
T: Tested position
R: Reduced
See Annex F for a more detailed explanation of the separation distance related to the platform.
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Test Report N° 170224-01.TR02
Rev. 00
B.1.3.2 General SAR test reduction
According to FCC OET KDB 447498 D01, testing of other required channels within the operating mode of a frequency
band is not required when the reported 1-g or 10-g SAR for the mid-band or highest output power channel is:
• ≤ 0.8 W/kg or 2.0 W/kg, for 1-g or 10-g respectively, when the transmission band is ≤ 100 MHz
• ≤ 0.6 W/kg or 1.5 W/kg, for 1-g or 10-g respectively, when the transmission band is between 100 MHz and
200 MHz
• ≤ 0.4 W/kg or 1.0 W/kg, for 1-g or 10-g respectively, when the transmission band is ≥ 200 MHz
WLAN SAR Test reduction
Transmission
Mode
DSSS
SAR test exclusion/reduction
According to FCC OET KDB 248227 D01, SAR is measured for 2.4 GHz 802.11b, SAR test
reduction is determined according to the following:

When the reported SAR of the highest measured maximum output power channel for
the exposure configuration is ≤ 0.8 W/kg, no further SAR testing is required for 802.11b
DSSS in that exposure configuration.

When the reported SAR is > 0.8 W/kg, SAR is required for that exposure configuration
using the next highest measured output power channel. When any reported SAR is >
1.2 W/kg, SAR is required for the third channel.
According to FCC OET KDB 248227 D01, SAR is not required for 2.4 GHz OFDM conditions 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.
According to FCC OET KDB 248227 D01, 802.11a/g/n/ac modes have the same specified
maximum output power, largest channel bandwidth, lowest order modulation and lowest data rate,
the lowest order 802.11 mode is selected; i.e., 802.11a is chosen over 802.11n then 802.11ac or
802.11g is chosen over 802.11n.
OFDM
According to FCC OET KDB 248227 D01, an initial test configuration is determined for OFDM and
DSSS transmission modes according to the channel bandwidth, modulation and data rate
combination(s) with the highest maximum output power specified for production units in each
standalone and aggregated frequency band. SAR is measured using the highest measured
maximum output power channel. SAR test reduction for subsequent highest output test channels is
determined according to reported SAR of the initial test configuration.
The initial test configuration for 5 GHz OFDM transmission modes is determined by the 802.11
configuration with the highest maximum output power specified for production units, including tuneup tolerance, in each standalone and aggregated frequency band. SAR for the initial test
configuration is measured using the highest maximum output power channel determined by the
default power measurement procedures.
According to FCC OET KDB 248227 D01, when the reported SAR of the initial test configuration is
> 0.8 W/kg, SAR measurement is required for subsequent next highest measured output power
channel(s) in the initial test configuration until reported SAR is ≤ 1.2 W/kg or all required channels
are tested.
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Test Report N° 170224-01.TR02
Rev. 00
Conducted Power Measurements
B.2.1 WLAN 2.4GHz
Main
Band
Mode
802.11b
2.4GHz (DTS)
802.11g
Data
Rate
1Mbps
6Mbps
802.11n20
HT0
802.11n40
Aux
Ch #
Freq (MHz)
Avg Pwr
(dBm)
Tune-up
Pwr (dBm)
Avg Pwr
(dBm)
Tune-up
Pwr (dBm)
SAR
Test
2412
16.25
16.25
16.24
16.25
No3
2437
17.10
17.25
17.24
17.25
Yes
11
2462
16.24
16.25
15.85
16.25
No3
2412
14.25
13.75
2437
17.25
17.25
11
2462
12.25
12.25
2412
14.25
NR1
17.25
13.75
NR1
2437
17.25
11
2462
12.25
12.25
2422
13.25
13.25
2437
16.25
16.25
2452
12.25
12.25
No2
Initial test configuration
1.
2.
3.
NR: Not Required
As per FCC OET KDB 248227 D01, conducted output power and SAR testing are not required for 802.11g/n20/n40 channels 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 ≤
1.2W/kg.
When the reported SAR of the initial test configuration is > 0.8 W/kg, SAR measurement is required for subsequent next highest measured
output power channel(s) in the initial test configuration until reported SAR is ≤ 1.2 W/kg or all required channels are tested.
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Test Report N° 170224-01.TR02
Rev. 00
B.2.2 WLAN 5GHz (U-NII)
B.2.2.1 5.2GHz and 5.3GHz (U-NII-1 and U-NII-2A)
Main
Band
Mode
802.11a
Data
Rate
6Mbps
5.2GHz (U-NII-1)
802.11n20
HT0
802.11n40
802.11ac80
VHT0
Avg Pwr
(dBm)
Aux
Ch #
Freq
(MHz)
Max output
Pwr (dBm)
Avg Pwr
(dBm)
36
5180
13.75
13.75
40
5200
14.75
14.75
44
5220
14.75
14.75
48
5240
14.75
14.75
36
5180
40
5200
44
5220
14.75
14.75
48
5240
14.75
14.75
38
5190
13.25
11.75
46
5230
16.00
16.00
42
5210
13.25
13.25
13.75
NR1
14.75
Max output
Pwr (dBm)
SAR
Test?
13.75
NR1
14.75
No2
Initial test configuration
1.
2.
3.
4.
5.
6.
7.
NR: Not Required
When the same maximum output power is specified for both bands, begin SAR measurement in U-NII-2A band by applying the OFDM SAR
requirements. If the highest reported SAR for a test configuration is ≤ 1.2 W/kg, SAR is not required for U-NII-1 band (see B.5.2 in this
document).
Additional conducted power measurement is required when reported SAR is > 1.2W/kg. In case the subsequent test configuration and the
channel bandwidth is smaller than the initial test configuration, all channels that overlap with the larger channel bandwidth in the initial
configuration should be tested.
When multiple transmission modes (802.11a/g/n/ac) have the same specified maximum output power, largest channel bandwidth, lowest
order modulation and lowest data rate, lowest order 802.11 mode is selected (i.e. a, g, n, then ac)
When the reported SAR of the initial test configuration is > 0.8W/kg, SAR measurement is required for the subsequent next highest
measured output power channel(s) in the initial test configuration until reported SAR is =1.2W/kg or all required channels are tested.
When the highest reported SAR for the initial test configuration (when applicable, include subsequent highest output channels), according
to the initial test position or fixed exposure requirements, is adjusted by the ratio of the subsequent test configuration to the initial test
configuration specified maximum output power and the adjusted SAR is ≤1.2 W/Kg, SAR is not required for that subsequent test
configuration
SAR for subsequent highest measured maximum output power channels in the subsequent test configuration is required only when the
reported SAR of the preceding higher maximum output power channel(s) in the subsequent test configuration is >1.2 W/Kg or until all
required channels are tested.
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Test Report N° 170224-01.TR02
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Main
Band
Mode
802.11a
Data
Rate
6Mbps
5.3GHz (U-NII-2A)
802.11n20
HT0
802.11n40
802.11ac80
VHT0
Avg Pwr
(dBm)
Aux
Freq
(MHz)
52
5260
16.00
15.75
56
5280
16.00
15.75
60
5300
16.00
15.75
64
5320
52
5260
56
5280
16.00
15.75
60
5300
16.00
15.75
64
5320
13.25
13.25
54
5270
15.90
16.00
16.00
16.00
Yes
62
5310
13.15
13.25
13.15
13.25
No4
58
5290
NR1
13.25
NR1
13.25
No5
NR1
Max output
Pwr (dBm)
13.25
16.00
Avg Pwr
(dBm)
NR1
Max output
Pwr (dBm)
SAR
Test?
Ch #
13.25
15.75
No5
Initial test configuration
1.
2.
3.
4.
5.
6.
NR: Not Required
When multiple transmission modes (802.11a/g/n/ac) have the same specified maximum output power, largest channel bandwidth, lowest
order modulation and lowest data rate, lowest order 802.11 mode is selected (i.e. a, g, n, then ac)
Additional conducted power measurement is required when reported SAR is > 1.2W/kg. In case the subsequent test configuration and the
channel bandwidth is smaller than the initial test configuration, all channels that overlap with the larger channel bandwidth in the initial
configuration should be tested.
When the reported SAR of the initial test configuration is > 0.8W/kg, SAR measurement is required for the subsequent next highest
measured output power channel(s) in the initial test configuration until reported SAR is ≤1.2W/kg or all required channels are tested.
When the highest reported SAR for the initial test configuration (when applicable, include subsequent highest output channels), according
to the initial test position or fixed exposure requirements, is adjusted by the ratio of the subsequent test configuration to the initial test
configuration specified maximum output power and the adjusted SAR is ≤1.2 W/Kg, SAR is not required for that subsequent test
configuration.
SAR for subsequent highest measured maximum output power channels in the subsequent test configuration is required only when the
reported SAR of the preceding higher maximum output power channel(s) in the subsequent test configuration is >1.2 W/Kg or until all
required channels are tested.
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Test Report N° 170224-01.TR02
Rev. 00
B.2.2.2 5.6 (U-NII-2C)
Aux
Main
Band
Mode
802.11a
Data
Rate
6Mbps
5.6GHz (U-NII-2C)
802.11n20
HT0
802.11n40
802.11ac80
VHT0
Avg Pwr
(dBm)
Ch #
100
5500
13.75
13.25
104
5520
16.00
16.00
108
5540
16.00
16.00
112
5560
16.00
16.00
116
5580
16.00
16.00
120
5600
16.00
16.00
124
5620
16.00
16.00
128
5640
16.00
16.00
100
5500
13.75
13.25
104
5520
108
5540
112
5560
16.00
16.00
116
5580
16.00
16.00
120
5600
16.00
16.00
124
5620
16.00
16.00
128
5640
16.00
16.00
102
5510
13.75
13.25
110
5550
16.00
16.00
118
5590
16.00
16.00
126
5630
16.00
16.00
106
5530
13.25
13.25
13.25
13.25
No5
122
5610
15.70
16.00
15.89
16.00
Yes
NR1
Max output
Pwr (dBm)
16.00
16.00
Avg Pwr
(dBm)
NR1
Max output
Pwr (dBm)
SAR
Test?
Freq
(MHz)
16.00
No6
16.00
Initial test configuration
1.
2.
3.
4.
5.
6.
7.
NR: Not Required
When band gap channels between U-NII-2C and U-NII-3 band are supported channels in U-NII-2C band below 5.65 GHz are considered
as one band and channels above 5.65 GHz, together with channels in 5.8 GHz U-NII-3 or §15.247 band, are considered as a separate
band
Additional conducted power measurement is required when reported SAR is > 1.2W/kg. In case the subsequent test configuration and the
channel bandwidth is smaller than the initial test configuration, all channels that overlap with the larger channel bandwidth in the initial
configuration should be tested
When multiple transmission modes (802.11a/g/n/ac) have the same specified maximum output power, largest channel bandwidth, lowest
order modulation and lowest data rate, lowest order 802.11 mode is selected (i.e. a, g, n, then ac)
When the reported SAR of the initial test configuration is > 0.8W/kg, SAR measurement is required for the subsequent next highest
measured output power channel(s) in the initial test configuration until reported SAR is ≤1.2W/kg or all required channels are tested.
When the highest reported SAR for the initial test configuration (when applicable, include subsequent highest output channels), according
to the initial test position or fixed exposure requirements, is adjusted by the ratio of the subsequent test configuration to the initial test
configuration specified maximum output power and the adjusted SAR is≤1.2 W/Kg, SAR is not required for that subsequent test
configuration.
SAR for subsequent highest measured maximum output power channels in the subsequent test configuration is required only when the
reported SAR of the preceding higher maximum output power channel(s) in the subsequent test configuration is >1.2 W/Kg or until all
required channels are tested.
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Test Report N° 170224-01.TR02
Rev. 00
B.2.2.3 5.8GHz (U-NII-3)
Aux
Main
Band
Mode
802.11a
Data
Rate
6Mbps
5.6-5.8GHz (U-NII-3)
802.11n20
HT0
802.11n40
802.11ac80
VHT0
Ch #
Freq
(MHz)
Avg Pwr
(dBm)
Max output
Pwr (dBm)
Avg Pwr
(dBm)
132
5660
16.00
15.75
136
5680
16.00
15.75
140
5700
12.75
12.75
149
5745
15.25
15.75
153
5765
15.25
15.75
157
5785
15.25
15.75
161
5805
15.25
15.75
165
5825
15.25
15.75
132
5660
16.00
15.75
136
5680
16.00
15.75
140
5700
12.75
12.75
149
5745
15.25
15.75
153
5765
15.25
15.75
157
5785
15.25
15.75
161
5805
15.25
15.75
165
5825
15.25
15.75
134
5670
16.00
16.00
151
5755
16.00
16.00
159
5795
138
5690
15.71
16.00
16.00
16.00
155
5775
15.77
16.00
15.90
16.00
16.00
Max output
Pwr (dBm)
SAR
Test?
No6
16.00
Yes
Initial test configuration
1.
2.
3.
4.
5.
6.
7.
NR: Not Required
When band gap channels between U-NII-2C and U-NII-3 band are supported channels in U-NII-2C band below 5.65 GHz are considered
as one band and channels above 5.65 GHz, together with channels in 5.8 GHz U-NII-3 or §15.247 band, are considered as a separate
band
Additional conducted power measurement is required when reported SAR is > 1.2W/kg. In case the subsequent test configuration and the
channel bandwidth is smaller than the initial test configuration, all channels that overlap with the larger channel bandwidth in the initial
configuration should be tested
When multiple transmission modes (802.11a/g/n/ac) have the same specified maximum output power, largest channel bandwidth, lowest
order modulation and lowest data rate, lowest order 802.11 mode is selected (i.e. a, g, n, then ac)
When the reported SAR of the initial test configuration is > 0.8W/kg, SAR measurement is required for the subsequent next highest
measured output power channel(s) in the initial test configuration until reported SAR is ≤1.2W/kg or all required channels are tested.
When the highest reported SAR for the initial test configuration (when applicable, include subsequent highest output channels), according
to the initial test position or fixed exposure requirements, is adjusted by the ratio of the subsequent test configuration to the initial test
configuration specified maximum output power and the adjusted SAR is ≤1.2 W/Kg, SAR is not required for that subsequent test
configuration.
SAR for subsequent highest measured maximum output power channels in the subsequent test configuration is required only when the
reported SAR of the preceding higher maximum output power channel(s) in the subsequent test configuration is >1.2 W/Kg or until all
required channels are tested.
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Test Report N° 170224-01.TR02
Rev. 00
B.2.3 Bluetooth
Band
Mode
Data Rate
Bluetooth
v4.2
Basic rate
GFSK
2.4GHz
Bluetooth
v4.2
Bluetooth
v4.2
Bluetooth
v4.2
Frequency
(MHz)
2402
39
2441
5.30
78
2480
5.30
2402
1.30
39
2441
1.30
78
2480
2402
39
2441
1.20
78
2480
1.20
2412
3.20
20
2437
3.20
39
2480
3.20
Channel
Basic rate
π/4 DQPSK
Basic rate
8-DPSK
Low energy
GFSK
Antenna
Aux
Avg Pwr
(dBm)
NR1,2
Max output Pwr
(dBm)
5.30
1.30
1.20
Initial test configuration
1.
2.
NR: Not Required
According to KDB 447498 D01 v05r02 section 4.3.1, Standalone SAR test exclusion considerations, SAR test for BT are not required
according to the maximum channel power specification including tune-up tolerance and minimal test separation distance.
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Test Report N° 170224-01.TR02
Rev. 00
Tissue Parameters Measurement
Body TSL
Freq.
(MHz)
Measured TSL
Parameters
Target Parameters
Deviation (%)
Date
ε’ (F/m)
σ (S/m)
ε’ (F/m)
σ (S/m)
ε’
σ
2450
52.70
1.95
49.52
2.08
-6.04
6.81
2017-04-24
5300
48.88
5.41
44.46
5.39
-9.03
-0.46
2017-04-24
5600
48.47
5.76
43.96
5.77
-9.31
0.18
2017-04-24
5800
48.20
6.00
43.56
6.06
-9.63
1.00
2017-04-24
Limit (%)
Date
See Annex D for more details
System Check Measurements
Body Measurements
Frequency
(MHz)
2450
5300
5600
5800
Average
Target SAR
(W/Kg)
Measured SAR
(W/Kg)
Deviation to
target (%)
1g
49.40
53.52
8.33
10g
23.40
24.61
5.16
1g
75.60
81.41
7.69
10g
21.20
23.05
8.71
1g
78.20
76.22
-2.53
10g
21.70
22.11
1.87
1g
76.20
77.83
2.14
10g
21.00
21.45
2.16
2017/04/24
2017/04/24
Âą10
2017/04/24
2017/04/24
See Annex C for more details.
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Test Report N° 170224-01.TR02
Rev. 00
SAR Test Results
B.5.1 802.11b/g/n – 2.4GHz - DTS
Ant.
Main
Aux
Mode
Data rate
BW
(MHz)
Ch
Freq
(MHz)
Position
Correct.
Factor (dB)
SAR 1g
(W/kg)
802.11b
1Mbps
20
2437
Laptop
0.15
0.53
Reported
SAR 1g
(W/kg)
0.55
20
2437
Laptop
0.01
0.26
0.26
Plot
B.5.2 802.11a/n/ac – 5.3 GHz – U-NII-2A
Ant.
Main
Aux
Mode
Data rate
802.11n40
HT0
802.11n40
HT0
BW
(MHz)
Ch
Freq
(MHz)
Position
Correct.
Factor (dB)
SAR 1g
(W/kg)
Reported
SAR 1g
(W/kg)
Plot
40
54
5270
Laptop
0.10
0.39
0.40
40
54
5270
Laptop
0.00
0.56
0.56
B.5.3 802.11a/n/ac – 5.6 GHz – U-NII-2C
Ant.
Main
Aux
Mode
Data rate
802.11ac80
VHT0
802.11ac80
VHT0
BW
(MHz)
Ch
Freq
(MHz)
Position
Correct.
Factor (dB)
SAR 1g
(W/kg)
Reported
SAR 1g
(W/kg)
Plot
80
122
5610
Laptop
0.30
0.47
0.51
80
122
5610
Laptop
0.11
0.67
0.68
B.5.4 802.11a/n/ac – 5.8 GHz – U-NII-3
Ant.
Main
Aux
Mode
Data rate
802.11ac80
VHT0
802.11ac80
VHT0
BW
(MHz)
Ch
Freq
(MHz)
Position
Correct.
Factor (dB)
SAR 1g
(W/kg)
Reported
SAR 1g
(W/kg)
Plot
80
155
5775
Laptop
0.23
0.40
0.42
80
138
5690
Laptop
0.00
0.78
0.78
B.5.5 SAR Measurement Variability
According to FCC OET KDB 865664, SAR Measurement variability is assessed when the maximum initial measured
SAR is >0.8 W/kg for a certain band/mode. No variability measurements are required as all measured values are below
this threshold.
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Test Report N° 170224-01.TR02
Rev. 00
B.5.6 Simultaneous Transmission SAR Evaluation
According to FCC OET KDB 447498 D01, when the sum of 1g SAR for all simultaneously transmitting antennas in an
operating mode and exposure condition combination is within the SAR limit, SAR test exclusion applies to that
simultaneous transmission configuration.
All the values stated in the table below are the worst case found for standalone measurement with disregard of the
transmission mode or channel where the worst case was found
Antenna
Position
Main
Aux
Highest Reported SAR (1g) (W/Kg)
WLAN 2.4GHz
WLAN 5GHz
Laptop
0.55
0.51
Laptop
0.26
0.78
Bluetooth
0.18*
* According to FCC OET KDB 447498 D01, when standalone test exclusion is applied to an antenna that transmits simultaneously
with other antennas, in order to determine simultaneous transmission test exclusion, the standalone SAR must be estimated to:

0.4 W/Kg for 1-g SAR when the test separation is > 50mm

[(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)]·[√f(GHz)/x] W/kg where
x = 7.5 for 1-g SAR when the test separation is ≤ 50mm
See Annex F for more details on antennas location and B.2.3 for maximum power details
Position
Laptop
Simultaneous Tx Antenna Combination
ĆŠ SAR 1g (W/Kg)
Main Antenna
Aux Antenna
WLAN 2.4GHz
WLAN 2.4GHz
0.81
WLAN 2.4GHz
BT
0.73
WLAN 5GHz
WLAN 5GHz
1.29
WLAN 5GHz
BT
0.69
Limit (W/kg)
1.6
Considering the results described above and according to the simultaneous transmission SAR test exclusion
considerations described in FCC OET KDB 447498 D01, no SAR to Peak Location Separation Ratio is required.
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Test Report N° 170224-01.TR02
Rev. 00
Annex C. Test System Plots
1.
DTS - 802.11b, CH6, Main Antenna – Laptop ...................................................................................................... 33
2.
DTS - 802.11b, CH6, Aux Antenna – Laptop ........................................................................................................ 34
3.
U-NII-2A - 802.11n40, CH54, Main Antenna – Laptop ......................................................................................... 35
4.
U-NII-2A - 802.11n40, CH54, Aux Antenna – Laptop ........................................................................................... 36
5.
U-NII-2C - 802.11ac80, CH122, Main Antenna – Laptop ..................................................................................... 37
6.
U-NII-2C - 802.11ac80, CH122, Aux Antenna – Laptop ....................................................................................... 38
7.
U-NII-3 - 802.11ac80, CH155, Main Antenna – Laptop ........................................................................................ 39
8.
U-NII-3 - 802.11ac80, CH138, Aux Antenna – Laptop ......................................................................................... 40
9.
System Check Body Liquid 2450MHz .................................................................................................................. 41
10.
System Check Body Liquid 5300MHz .............................................................................................................. 42
11.
System Check Body Liquid 5600MHz .............................................................................................................. 43
12.
System Check Body Liquid 5800MHz .............................................................................................................. 44
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Test Report N° 170224-01.TR02
Rev. 00
1. DTS - 802.11b, CH6, Main Antenna – Laptop
Test Laboratory: Intel; Date/Time: 2017-04-24 5:29:24 PM
DUT: TPN-I128 + 7265NGW; Type: Laptop; Serial: 7C:B0:C2:D4:1E:8F
Communication System: UID 0, 802.11 (0); Communication System Band: 2.4GHz; Frequency: 2437
MHz;Communication System PAR: 0 dB
Medium parameters used (interpolated): f = 2437 MHz; σ = 2.037 S/m; ξr = 50.395; ρ = 1000 kg/m 3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(7.25, 7.25, 7.25); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 4mm (Mechanical Surface Detection), z = -25.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
5GHz Laptop/DTS_802.11b_CH6-2437MHz_Laptop_Main/Area Scan (51x71x1): Interpolated grid: dx=1.200 mm,
dy=1.200 mm
Maximum value of SAR (interpolated) = 0.692 W/kg
5GHz Laptop/DTS_802.11b_CH6-2437MHz_Laptop_Main/Zoom Scan (7x7x7)/Cube 0: Measurement grid:
dx=5mm, dy=5mm, dz=5mm
Reference Value = 10.39 V/m; Power Drift = -0.02 dB
Peak SAR (extrapolated) = 1.13 W/kg
SAR(1 g) = 0.533 W/kg; SAR(10 g) = 0.256 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 0.595 W/kg
0 dB = 0.595 W/kg = -2.25 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
2. DTS - 802.11b, CH6, Aux Antenna – Laptop
Test Laboratory: Intel; Date/Time: 2017-04-24 5:10:47 PM
DUT: TPN-I128 + 7265NGW; Type: Laptop; Serial: 7C:B0:C2:D4:1E:8F
Communication System: UID 0, 802.11 (0); Communication System Band: 2.4GHz; Frequency: 2437
MHz;Communication System PAR: 0 dB
Medium parameters used (interpolated): f = 2437 MHz; σ = 2.067 S/m; ξr = 49.553; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(7.25, 7.25, 7.25); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 4mm (Mechanical Surface Detection), z = -25.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
5GHz /DTS_802.11b_CH6-2437MHz_Laptop_Aux/Area Scan (51x71x1): Interpolated grid: dx=1.200 mm, dy=1.200
mm
Maximum value of SAR (interpolated) = 0.328 W/kg
5GHz /DTS_802.11b_CH6-2437MHz_Laptop_Aux/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm,
dy=5mm, dz=5mm
Reference Value = 8.172 V/m; Power Drift = -0.06 dB
Peak SAR (extrapolated) = 0.529 W/kg
SAR(1 g) = 0.255 W/kg; SAR(10 g) = 0.132 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 0.283 W/kg
0 dB = 0.283 W/kg = -5.48 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
3. U-NII-2A - 802.11n40, CH54, Main Antenna – Laptop
Test Laboratory: Intel; Date/Time: 2017-04-24 2:18:58 PM
DUT: TPN-I128 + 7265NGW; Type: Laptop; Serial: 7C:B0:C2:D4:1E:8F
Communication System: UID 0, 802.11 (0); Communication System Band: 5GHz; Frequency: 5270
MHz;Communication System PAR: 0 dB
Medium parameters used: f = 5270 MHz; σ = 5.352 S/m; ξr = 44.513; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(4.12, 4.12, 4.12); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection), z = -29.0, 25.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
5GHz /UNII-2A_802.11n40_CH54-5270MHz_Laptop_Main/Area Scan (51x101x1): Interpolated grid: dx=1.000 mm,
dy=1.000 mm
Maximum value of SAR (interpolated) = 0.913 W/kg
5GHz /UNII-2A_802.11n40_CH54-5270MHz_Laptop_Main/Zoom Scan (7x7x12)/Cube 0: Measurement grid:
dx=4mm, dy=4mm, dz=2mm
Reference Value = 7.011 V/m; Power Drift = 0.17 dB
Peak SAR (extrapolated) = 1.68 W/kg
SAR(1 g) = 0.389 W/kg; SAR(10 g) = 0.102 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 0.848 W/kg
0 dB = 0.848 W/kg = -0.72 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
4. U-NII-2A - 802.11n40, CH54, Aux Antenna – Laptop
Test Laboratory: Intel; Date/Time: 2017-04-24 2:56:17 PM
DUT: TPN-I128 + 7265NGW; Type: Laptop; Serial: 7C:B0:C2:D4:1E:8F
Communication System: UID 0, 802.11 (0); Communication System Band: 5GHz; Frequency: 5270
MHz;Communication System PAR: 0 dB
Medium parameters used: f = 5270 MHz; σ = 5.352 S/m; ξr = 44.513; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(4.12, 4.12, 4.12); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection), z = -9.0, 25.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
5GHz /UNII-2A_802.11n40_CH54-5270MHz_Laptop_Aux/Area Scan (51x101x1): Interpolated grid: dx=1.000 mm,
dy=1.000 mm
Maximum value of SAR (interpolated) = 1.27 W/kg
5GHz /UNII-2A_802.11n40_CH54-5270MHz_Laptop_Aux/Zoom Scan (10x10x12)/Cube 0: Measurement grid:
dx=4mm, dy=4mm, dz=2mm
Reference Value = 8.202 V/m; Power Drift = -0.02 dB
Peak SAR (extrapolated) = 2.14 W/kg
SAR(1 g) = 0.562 W/kg; SAR(10 g) = 0.182 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 1.09 W/kg
0 dB = 1.09 W/kg = 0.37 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
5. U-NII-2C - 802.11ac80, CH122, Main Antenna – Laptop
Test Laboratory: Intel; Date/Time: 2017-04-24 3:55:54 PM
DUT: TPN-I128 + 7265NGW; Type: Laptop; Serial: 7C:B0:C2:D4:1E:8F
Communication System: UID 0, 802.11 (0); Communication System Band: 5GHz; Frequency: 5610
MHz;Communication System PAR: 0 dB
Medium parameters used: f = 5610 MHz; σ = 5.778 S/m; ξr = 43.941; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(3.62, 3.62, 3.62); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection (Locations From Previous Scan Used)), SensorSurface: 2mm (Mechanical Surface Detection), z = -29.0, 25.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
5GHz /UNII-2C_802.11n40_CH122-5270MHz_Laptop_Main/Area Scan (51x101x1): Interpolated grid: dx=1.000
mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 1.27 W/kg
5GHz /UNII-2C_802.11n40_CH122-5270MHz_Laptop_Main/Zoom Scan (7x7x12)/Cube 0: Measurement grid:
dx=4mm, dy=4mm, dz=2mm
Reference Value = 15.99 V/m; Power Drift = -0.00 dB
Peak SAR (extrapolated) = 2.35 W/kg
SAR(1 g) = 0.474 W/kg; SAR(10 g) = 0.110 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 1.17 W/kg
0 dB = 1.17 W/kg = 0.68 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
6. U-NII-2C - 802.11ac80, CH122, Aux Antenna – Laptop
Test Laboratory: Intel; Date/Time: 2017-04-24 3:37:11 PM
DUT: TPN-I128 + 7265NGW; Type: Laptop; Serial: 7C:B0:C2:D4:1E:8F
Communication System: UID 0, 802.11 (0); Communication System Band: 5GHz; Frequency: 5610
MHz;Communication System PAR: 0 dB
Medium parameters used: f = 5610 MHz; σ = 5.778 S/m; ξr = 43.941; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(3.62, 3.62, 3.62); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection (Locations From Previous Scan Used)), SensorSurface: 2mm (Mechanical Surface Detection), z = -9.0, 25.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
5GHz /UNII-2C_802.11n40_CH122-5610MHz_Laptop_Aux/Area Scan 2 (51x101x1): Interpolated grid: dx=1.000
mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 1.65 W/kg
5GHz /UNII-2C_802.11n40_CH122-5610MHz_Laptop_Aux/Zoom Scan (7x7x12)/Cube 0: Measurement grid:
dx=4mm, dy=4mm, dz=2mm
Reference Value = 15.98 V/m; Power Drift = -0.04 dB
Peak SAR (extrapolated) = 2.53 W/kg
SAR(1 g) = 0.665 W/kg; SAR(10 g) = 0.217 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 1.31 W/kg
0 dB = 1.31 W/kg = 1.17 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
7. U-NII-3 - 802.11ac80, CH155, Main Antenna – Laptop
Test Laboratory: Intel; Date/Time: 2017-04-24 4:15:41 PM
DUT: TPN-I128 + 7265NGW; Type: Laptop; Serial: 7C:B0:C2:D4:1E:8F
Communication System: UID 0, 802.11 (0); Communication System Band: 5GHz; Frequency: 5775
MHz;Communication System PAR: 0 dB
Medium parameters used (interpolated): f = 5775 MHz; σ = 6.024 S/m; ξr = 43.613; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(3.75, 3.75, 3.75); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection (Locations From Previous Scan Used)), SensorSurface: 2mm (Mechanical Surface Detection), z = -29.0, 25.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
5GHz /UNII-3_802.11ac80_CH155-5775MHz_Laptop_Main/Area Scan 2 (51x101x1): Interpolated grid: dx=1.000
mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 1.14 W/kg
5GHz /UNII-3_802.11ac80_CH155-5775MHz_Laptop_Main/Zoom Scan (7x7x12)/Cube 0: Measurement grid:
dx=4mm, dy=4mm, dz=2mm
Reference Value = 14.73 V/m; Power Drift = -0.03 dB
Peak SAR (extrapolated) = 2.91 W/kg
SAR(1 g) = 0.395 W/kg; SAR(10 g) = 0.080 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 1.02 W/kg
0 dB = 1.02 W/kg = 0.09 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
8. U-NII-3 - 802.11ac80, CH138, Aux Antenna – Laptop
Test Laboratory: Intel; Date/Time: 2017-04-24 4:34:45 PM
DUT: TPN-I128 + 7265NGW; Type: Laptop; Serial: 7C:B0:C2:D4:1E:8F
Communication System: UID 0, 802.11 (0); Communication System Band: 5GHz; Frequency: 5690
MHz;Communication System PAR: 0 dB
Medium parameters used: f = 5690 MHz; σ = 5.901 S/m; ξr = 43.784; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(3.62, 3.62, 3.62); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection (Locations From Previous Scan Used)), SensorSurface: 2mm (Mechanical Surface Detection), z = -9.0, 25.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
5GHz /UNII-3_802.11ac80_CH138-5775MHz_Laptop_Aux/Area Scan 2 (51x101x1): Interpolated grid: dx=1.000
mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 1.88 W/kg
5GHz /UNII-3_802.11ac80_CH138-5775MHz_Laptop_Aux/Zoom Scan (7x7x12)/Cube 0: Measurement grid:
dx=4mm, dy=4mm, dz=2mm
Reference Value = 18.18 V/m; Power Drift = -0.00 dB
Peak SAR (extrapolated) = 3.06 W/kg
SAR(1 g) = 0.780 W/kg; SAR(10 g) = 0.247 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 1.54 W/kg
0 dB = 1.54 W/kg = 1.88 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
9. System Check Body Liquid 2450MHz
Test Laboratory: Intel; Date/Time: 2017-04-24 6:27:16 PM
DUT: Dipole 2450 MHz D2450V2; Type: D2450V2; Serial: D2450V2 - SN:0937
Communication System: UID 0, CW (0); Communication System Band: D2450 (2450.0 MHz); Frequency: 2450
MHz;Communication System PAR: 0 dB
Medium parameters used: f = 2450 MHz; σ = 2.083 S/m; ξr = 49.517; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(7.25, 7.25, 7.25); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 4mm (Mechanical Surface Detection), z = -14.0, 31.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
WLAN-2.4GHz/System check 2450MHz/Area Scan (81x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 6.15 W/kg
WLAN-2.4GHz/System check 2450MHz/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm,
dz=5mm
Reference Value = 54.06 V/m; Power Drift = -0.13 dB
Peak SAR (extrapolated) = 11.1 W/kg
SAR(1 g) = 5.35 W/kg; SAR(10 g) = 2.46 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 6.16 W/kg
0 dB = 6.16 W/kg = 7.90 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
10. System Check Body Liquid 5300MHz
Test Laboratory: Intel; Date/Time: 2017-04-24 11:27:56 AM
DUT: Dipole D5GHzV2; Type: D5GHzV2; Serial: D5GHzV2 - SN:1164
Communication System: UID 0, CW (0); Communication System Band: D5GHz (5000.0 - 6000.0 MHz); Frequency:
5300 MHz;Communication System PAR: 0 dB
Medium parameters used: f = 5300 MHz; σ = 5.391 S/m; ξr = 44.463; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(4.12, 4.12, 4.12); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection), z = 1.0, 23.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
WLAN-5GHz/System check 5300MHz 2/Area Scan (81x81x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 16.7 W/kg
WLAN-5GHz/System check 5300MHz 2/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm,
dz=2mm
Reference Value = 61.38 V/m; Power Drift = 0.04 dB
Peak SAR (extrapolated) = 33.7 W/kg
SAR(1 g) = 8.16 W/kg; SAR(10 g) = 2.31 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 16.9 W/kg
0 dB = 16.9 W/kg = 12.28 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
11. System Check Body Liquid 5600MHz
Test Laboratory: Intel; Date/Time: 2017-04-24 7:26:10 PM
DUT: Dipole D5GHzV2; Type: D5GHzV2; Serial: D5GHzV2 - SN:1164
Communication System: UID 0, CW (0); Communication System Band: D5GHz (5000.0 - 6000.0 MHz); Frequency:
5600 MHz;Communication System PAR: 0 dB
Medium parameters used: f = 5600 MHz; σ = 5.777 S/m; ξr = 43.959; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(3.62, 3.62, 3.62); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection), z = 1.0, 23.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
WLAN-5GHz/System check 5600MHz/Area Scan 2 (81x81x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 15.1 W/kg
WLAN-5GHz/System check 5600MHz/Zoom Scan (9x9x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm,
dz=2mm
Reference Value = 63.38 V/m; Power Drift = 0.17 dB
Peak SAR (extrapolated) = 31.3 W/kg
SAR(1 g) = 7.62 W/kg; SAR(10 g) = 2.21 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 15.7 W/kg
0 dB = 15.7 W/kg = 11.96 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
12. System Check Body Liquid 5800MHz
Test Laboratory: Intel; Date/Time: 2017-04-24 5:50:45 PM
DUT: Dipole D5GHzV2; Type: D5GHzV2; Serial: D5GHzV2 - SN:1164
Communication System: UID 0, CW (0); Communication System Band: D5GHz (5000.0 - 6000.0 MHz); Frequency:
5800 MHz;Communication System PAR: 0 dB
Medium parameters used: f = 5800 MHz; σ = 6.06 S/m; ξr = 43.559; ρ = 1000 kg/m 3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY Configuration:





Probe: EX3DV4 - SN3978; ConvF(3.75, 3.75, 3.75); Calibrated: 2016-06-21;
o Modulation Compensation:
Sensor-Surface: 2mm (Mechanical Surface Detection), z = 1.0, 23.0
Electronics: DAE4 Sn1429; Calibrated: 2017-02-07
Phantom: ELI V8.0 (20deg probe tilt); Type: QD OVA 004 Ax;
DASY52 52.8.8(1258);
WLAN-5GHz/System check 5800MHz/Area Scan 2 (81x81x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm
Maximum value of SAR (interpolated) = 16.3 W/kg
WLAN-5GHz/System check 5800MHz/Zoom Scan (8x8x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm,
dz=2mm
Reference Value = 58.07 V/m; Power Drift = 0.04 dB
Peak SAR (extrapolated) = 32.7 W/kg
SAR(1 g) = 7.8 W/kg; SAR(10 g) = 2.15 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 16.7 W/kg
0 dB = 16.7 W/kg = 12.23 dBW/kg
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Test Report N° 170224-01.TR02
Rev. 00
Annex D. TSL Dielectric Parameters
Body DTS 2450MHz
2017-04-24
Freq.
(MHz)
Target
Measured
ε’
(F/m)
σ
(S/m)
ε’
(F/m)
σ
(S/m)
2400
52.77
1.90
49.61
2.04
2410
52.75
1.91
49.60
2.05
2420
52.74
1.92
49.58
2.06
2430
52.73
1.93
49.56
2.06
2440
52.71
1.94
49.54
2.07
2450
52.70
1.95
49.52
2.08
2460
52.69
1.96
49.50
2.09
2470
52.67
1.98
49.48
2.10
2480
52.66
1.99
49.46
2.11
2490
52.65
2.01
49.44
2.12
2500
52.64
2.02
49.42
2.13
Permittivity
Conductivity
2,30
59,00
57,00
2,00
55,00
53,00
1,70
51,00
49,00
47,00
2400
2420
2440
Îľ' [F/m]
2460
Îľ' -10%
2480
2500
Îľ'10%
1,40
2400
2420
σ[S/m]
FO-057_SAR FCC-IC WLAN Test Report_170504
Printed copies are not controlled documents
2440
2460
σ-10%
2480
2500
σ 10%
45 of 53
Test Report N° 170224-01.TR02
Rev. 00
Body 5200MHz-5800MHz
Freq.
(MHz)
5200
5210
5220
5230
5240
5250
5260
5270
5280
5290
5300
5310
5320
5330
5340
5350
5360
5370
5380
5390
5400
5500
5510
5520
5530
5540
5550
5560
5570
5580
5590
5600
5610
5620
5630
5640
5650
5660
5670
5680
5690
5700
5710
5720
5730
5740
5750
5760
5770
5780
5790
5800
5810
5820
5830
5840
5850
5860
5870
5880
5890
5900
Target
ε’ (F/m)
σ (S/m)
49.01
5.30
49.00
5.31
48.99
5.32
48.97
5.33
48.96
5.34
48.95
5.36
48.93
5.37
48.92
5.38
48.91
5.39
48.89
5.40
48.88
5.41
48.87
5.43
48.85
5.44
48.84
5.45
48.82
5.46
48.81
5.47
48.80
5.48
48.78
5.50
48.77
5.51
48.76
5.52
48.74
5.53
48.61
5.65
48.59
5.66
48.58
5.67
48.57
5.68
48.55
5.69
48.54
5.71
48.53
5.72
48.51
5.73
48.50
5.74
48.49
5.75
48.47
5.76
48.46
5.78
48.44
5.79
48.43
5.80
48.42
5.81
48.40
5.82
48.39
5.83
48.38
5.85
48.36
5.86
48.35
5.87
48.34
5.88
48.32
5.88
48.31
5.89
48.30
5.91
48.28
5.92
48.27
5.93
48.25
5.94
48.24
5.95
48.23
5.96
48.21
5.98
48.20
5.99
48.19
6.00
48.17
6.01
48.16
6.02
48.15
6.03
48.13
6.05
48.12
6.06
48.10
6.07
48.09
6.08
48.08
6.09
48.06
6.10
2017-04-24
Measured
ε’ (F/m)
σ (S/m)
44.60
5.26
44.59
5.27
44.57
5.28
44.56
5.30
44.55
5.31
44.53
5.32
44.52
5.33
44.51
5.35
44.49
5.36
44.48
5.38
44.46
5.39
44.45
5.40
44.44
5.41
44.42
5.43
44.40
5.44
44.39
5.45
44.37
5.46
44.35
5.48
44.33
5.49
44.32
5.51
44.31
5.52
44.13
5.65
44.12
5.67
44.10
5.68
44.09
5.69
44.07
5.70
44.06
5.72
44.04
5.73
44.02
5.74
44.00
5.75
43.98
5.76
43.96
5.77
43.94
5.78
43.92
5.80
43.89
5.81
43.88
5.83
43.86
5.84
43.84
5.85
43.82
5.87
43.80
5.88
43.78
5.90
43.76
5.91
43.74
5.93
43.72
5.94
43.70
5.96
43.68
5.97
43.66
5.99
43.64
6.00
43.62
6.02
43.60
6.03
43.58
6.04
43.56
6.06
43.54
6.07
43.52
6.09
43.51
6.10
43.49
6.12
43.47
6.13
43.45
6.15
43.43
6.16
43.42
6.17
43.40
6.19
43.39
6.20
FO-057_SAR FCC-IC WLAN Test Report_170504
Printed copies are not controlled documents
46 of 53
Test Report N° 170224-01.TR02
Rev. 00
Permittivity
55,0
53,0
51,0
49,0
47,0
45,0
43,0
5700
5750
5800
Îľ' [F/m]
5850
5900
Îľ' -10%
Îľ'10%
Conductivity
6,8
6,3
5,8
5,3
4,8
5400
5500
5600
σ[S/m]
5700
5800
σ-10%
FO-057_SAR FCC-IC WLAN Test Report_170504
Printed copies are not controlled documents
5900
σ 10%
47 of 53
Test Report N° 170224-01.TR02
Rev. 00
Annex E. Calibration Certificates
ID
Device
Type/Model
Serial
Number
Manufacturer
0236
Dosimetric E-field
Probe
EX3DV4
3978
SPEAG
0239
2450MHz System
Validation Dipole
D2450V2
937
SPEAG
0124
5GHz System
Validation Dipole
D5GHzv2
1164
SPEAG
Calibration
Certificate
Dipole calibration
According to the KDB 865664 D01, a dipole must be calibrated using a fully validated SAR system according to the
tissue dielectric parameters and SAR probe calibration frequency required for device testing. However, instead of the
typical annual calibration recommended by measurement standards, longer calibration intervals of up to three years
may be considered when it is demonstrated that the SAR target, impedance and return loss of a dipole have remain
stable according to the following requirements.
1. When the most recent return-loss result, measured at least annually, deviates by more than 20% from the
previous measurement (i.e. value in dB × 0.2) or not meeting the required 20 dB minimum return-loss
requirement.
2. When the most recent measurement of the real or imaginary parts of the impedance, measured at least
annually, deviates by more than 5 Ί from the previous measurement
FO-057_SAR FCC-IC WLAN Test Report_170504
Printed copies are not controlled documents
48 of 53
Test Report N° 170224-01.TR02
Rev. 00
The below results show the latest return loss and impedance measurements for each dipole performed by the lab:
Dipole 2450MHz Body TSL
Return Loss [dB]
Impedance [Ω]
Date
-26.30
51.1 + 4.8 j
2016-06-22
Last
Dipole 5200MHz Body TSL
Return Loss [dB]
Impedance [Ω]
Date
Previous
-21.57
48.59 – 8.14 j
2015-06-18
Last
-21.05
47.30 – 6.14 j
2016-06-16
Difference
-12.72%
1.29 + 2 j
Dipole 5300MHz Body TSL
Return Loss [dB]
Impedance [Ω]
Date
Previous
-24.37
48.26 – 5.69 j
2015-06-18
Last
-25.01
51.32 – 5.38 j
2016-06-16
Difference
13.70%
3.06 + 0.31 j
Dipole 5500MHz Body TSL
Previous
Last
Difference
Previous
Last
Difference
Previous
Last
Difference
Return Loss [dB]
Impedance [Ω]
-30.27
51.60 – 2.67 j
-30.29
48.37 – 3.07 j
0.45%
-3.23 – 0.4 j
Dipole 5600MHz Body TSL
Return Loss [dB]
Impedance [Ω]
-26.79
53.32 – 3.37 j
-26.35
49.61 – 2.33 j
-10.66%
3.71 + 1.04 j
Dipole 5800MHz Body TSL
Return Loss [dB]
Impedance [Ω]
-23.97
55.20 – 4.16 j
-23.45
52.30 – 2.62 j
-12.71%
- 2.9 + 1.54 j
FO-057_SAR FCC-IC WLAN Test Report_170504
Printed copies are not controlled documents
Date
2015-06-18
2016-06-16
Date
2015-06-18
2016-06-16
Date
2015-06-18
2016-06-16
49 of 53
Download: 7265NG Intel Dual Band Wireless-AC 7265 RF Exposure Info 170224-01.TR02 Intel Mobile Communications
Mirror Download [FCC.gov]7265NG Intel Dual Band Wireless-AC 7265 RF Exposure Info 170224-01.TR02 Intel Mobile Communications
Document ID3409418
Application IDcLi6v2uX0Dv7vR/dNQnN0w==
Document DescriptionRF Exposure SAR Report UMA Inpaq
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize258.24kB (3227956 bits)
Date Submitted2017-05-31 00:00:00
Date Available2017-05-31 00:00:00
Creation Date2017-05-23 10:43:05
Producing SoftwareMicrosoft® Word 2013
Document Lastmod2017-05-23 11:11:19
Document Title170224-01.TR02
Document CreatorMicrosoft® Word 2013
Document Author: Desblancs, Claire

Source Exif Data:
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Keywords                        : FCC, ID:, PD97265NG, &, PD97265NGU/IC, ID:, 1000M-7265NG
Modify Date                     : 2017:05:23 11:11:19+02:00
Subject                         : 7265NGW
Has XFA                         : No
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Tagged PDF                      : Yes
XMP Toolkit                     : Adobe XMP Core 5.6-c015 84.159810, 2016/09/10-02:41:30
Format                          : application/pdf
Creator                         : Desblancs, Claire
Description                     : 7265NGW
Title                           : 170224-01.TR02
Creator Tool                    : Microsoft® Word 2013
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Producer                        : Microsoft® Word 2013
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