02100005 Communication module RF Exposure Info 03 FCC SAR Report Fuji Film Corporation

Fuji Film Corporation Communication module

FCC ID Filing: W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
12105528H-A
1 of 142
W2Z-02100005
April 9, 2018
SAR TEST REPORT
Test Report No. :
12105528H-A
Applicant
: Fuji Film Corporation
Type of Equipment
: Communication module
Model No.
: TYPE1FJ
FCC ID
: W2Z-02100005
Test regulation
: FCC47CFR 2.1093
Test Result
: Complied
Reported SAR(1g) Value
1.
2.
3.
4.
5.
6.
The highest reported SAR(1g)
Body : 0.11 W/kg
This test report shall not be reproduced in full or partial, without the written approval of UL Japan, Inc.
The results in this report apply only to the sample tested.
This sample tested is in compliance with the limits of the above regulation.
The test results in this report are traceable to the national or international standards.
This test report must not be used by the customer to claim product certification, approval, or
endorsement by NVLAP, NIST, or any agency of the Federal Government.
This test report covers SAR technical requirements. It does not cover administrative issues such as
Manual or non-SAR test related Requirements. (if applicable)
Date of test:
March 1 and 14, 2018
Representative
test engineer:
Tomohisa Nakagawa
Engineer
Consumer Technology Division
Approved by :
Satofumi Matsuyama
Engineer
Consumer Technology Division
This laboratory is accredited by the NVLAP LAB CODE
200572-0, U.S.A. The tests reported herein have been
performed in accordance with its terms of accreditation.
*As for the range of Accreditation in NVLAP, you may
refer to the WEB address,
http://japan.ul.com/resources/emc_accredited/
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
13-EM-F0429
Test report No.
Page
FCC ID
Issued date
REVISION HISTORY
Original Test Report No.: 12105528H-A
Revision
Test report No.
Date
(Original)
12105528H-A
April 9, 2018
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Page
revised
Contents
12105528H-A
2 of 142
W2Z-02100005
April 9, 2018
Test report No.
Page
FCC ID
Issued date
CONTENTS
12105528H-A
3 of 142
W2Z-02100005
April 9, 2018
PAGE
SECTION1: Customer information.................................................................................................... 4
SECTION2: Equipment under test (E.U.T.) ...................................................................................... 4
2.1 Identification of E.U.T. .................................................................................................................................4
2.2 Product description .......................................................................................................................................4
SECTION3: Test standard information ............................................................................................. 5
3.1 Test Specification .........................................................................................................................................5
3.2 Procedure ....................................................................................................................................................5
3.3 Exposure limit...............................................................................................................................................6
3.4 SAR ..............................................................................................................................................................6
3.5 Test Location ................................................................................................................................................6
SECTION4: Test result ........................................................................................................................ 7
4.1 Stand-alone SAR result.................................................................................................................................7
4.2 Simultaneous transmission SAR result .........................................................................................................7
SECTION5: Tune-up tolerance information and software information......................................... 8
SECTION6: RF Exposure Conditions (Test Configurations) ........................................................ 10
6.1 Summary of the distance between antenna and surface of EUT .................................................................10
6.2 SAR test exclusion considerations according to KDB447498 D01 ............................................................10
6.3 SAR test exclusion considerations according to KDB UMPC ...................................................................12
SECTION7: Description of the Body setup ..................................................................................... 13
7.1 Procedure for SAR test position determination ..........................................................................................13
7.2 Test position for Body setup .......................................................................................................................13
SECTION8: Description of the operating mode .............................................................................. 14
8.1 Output Power and SAR test required ..........................................................................................................14
8.2 Correlation of Output Power.......................................................................................................................16
SECTION9: Test surrounding .......................................................................................................... 17
9.1 Measurement uncertainty ............................................................................................................................17
SECTION10: Parameter Check ........................................................................................................ 18
10.1 For SAR system check ..............................................................................................................................18
10.2 For SAR measurement ..............................................................................................................................20
SECTION11: System Check confirmation....................................................................................... 21
SECTION12: Measured and Reported (Scaled) SAR Results ....................................................... 22
12.1 WLAN 2.4GHz Band ...............................................................................................................................24
12.2 Bluetooth LE.............................................................................................................................................25
SECTION13: Test instruments ......................................................................................................... 26
APPENDIX 1 : System Check ......................................................................................................... 27
APPENDIX 2 : SAR Measurement data ....................................................................................... 31
APPENDIX 3 : System specifications ............................................................................................. 44
APPENDIX 4 : Photographs of test setup.................................................................................... 137
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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FCC ID
Issued date
12105528H-A
4 of 142
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April 9, 2018
SECTION1: Customer information
Company Name
Address
Contact Person
Telephone Number
Facsimile Number
Fuji Film Corporation
7-3, Akasaka 9-Chome, Minato-ku, Tokyo 107-0052, Japan
Takao Ozaki
+81-3-6271-1654
+81-3-6271-1189
SECTION2: Equipment under test (E.U.T.)
2.1 Identification of E.U.T.

Type of Equipment
Model No.
Serial No.
Rating
Receipt Date of Sample
Country of Mass-production
Condition of EUT
Modification of EUT
Communication module
TYPE1FJ
1047M
DC3.3 V(Typ.)
February 21, 2018
China
Production prototype
(Not for Sale: This sample is equivalent to mass-produced items.)
No Modification by the test lab
2.2 Product description
Model: TYPE1FJ (referred to as the EUT in this report) is a Communication module.
General Specification

Clock frequency(ies) in the system
37.4 MHz
Radio Specification
WLAN (IEEE802.11b/g/n-20)
Equipment Type
Frequency of Operation
Type of Modulation
Bandwidth & Channel spacing
Method of frequency generation
Antenna Type
Antenna Gain
Transceiver
2412 MHz - 2462 MHz
DSSS, OFDM
20 MHz & 5 MHz
Synthesizer
Monopole Pattern Antenna
0.8 dBi
Bluetooth LE
Equipment Type
Frequency of Operation
Type of Modulation
Bandwidth & Channel spacing
Method of frequency generation
Antenna Type
Antenna Gain
Transceiver
2402 MHz - 2480 MHz
GFSK
1 MHz & 2 MHz
Synthesizer
Monopole Pattern Antenna
0.8 dBi
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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FCC ID
Issued date
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SECTION3: Test standard information
3.1 Test Specification
Title
FCC47CFR 2.1093
IEEE Std 1528-2013:
Radiofrequency radiation exposure evaluation: portable devices.
IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human
Head from Wireless Communications Devices: Measurement Techniques.
: Published RF exposure KDB procedures
RF Exposure Procedures and Equipment Authorization Policies for Mobile and Portable
☑ KDB447498D01(v06)
Devices
SAR Measurement Procedures for USB Dongle Transmitters
☐ KDB447498D02(v02r01)
SAR Evaluation Considerations for Wireless Handsets
☐ KDB648474D04(v01r03)
3G SAR Measurement Procedures
☐ KDB941225D01(v03r01)
SAR Evaluation Considerations for LTE Devices
☐ KDB941225D05(v02r05)
SAR Evaluation Procedures for Portable Devices with Wireless Router Capabilities
☐ KDB941225D06(v02r01)
(Hot Spot SAR)
SAR Evaluation Procedures for UMPC Mini-Tablet Devices
☑ KDB941225D07(v01r02)
☐ KDB616217D04(v01r02)
☑ KDB865664D01(v01r04)
☑ KDB248227D01(v02r02)
SAR Evaluation Considerations for Laptop, Notebook, Netbook and Tablet Computers
SAR Measurement Requirements for 100MHz to 6 GHz
SAR Guidance for 802.11(Wi-Fi) Transmitters
Reference
[1]SPEAG uncertainty document (AN 15-7/AN19-17) for DASY 5 System from SPEAG (Schmid & Partner
Engineering AG).
3.2 Procedure
Transmitter
Test Procedure
WLAN and Bluetooth
Published RF exposure KDB procedures
Category
FCC47CFR 2.1093
Note: UL Japan, Inc. ’s SAR Work Procedures 13-EM-W0429 and 13-EM-W0430
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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FCC ID
Issued date
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April 9, 2018
3.3 Exposure limit
(A) Limits for Occupational/Controlled Exposure (W/kg)
Spatial Average
(averaged over the whole body)
Spatial Peak
(averaged over any 1g of tissue)
0.4
8.0
Spatial Peak
(hands/wrists/feet/ankles averaged
over 10g)
20.0
(B) Limits for General population/Uncontrolled Exposure (W/kg)
Spatial Average
(averaged over the whole body
Spatial Peak
(averaged over any 1g of tissue)
0.08
1.6
Spatial Peak
(hands/wrists/feet/ankles averaged
over 10g)
4.0
Occupational/Controlled Environments: are defined as locations where there is exposure
that may be incurred by people who are aware of the potential for exposure, (i.e. as a result of employment or
occupation).
General Population/Uncontrolled Environments: are defined as locations where there is the exposure of individuals
who have no knowledge or control of their exposure.
NOTE:GENERAL POPULATION/UNCONTROLLED EXPOSURE
SPATIAL PEAK(averaged over any 1g of tissue) LIMIT
1.6 W/kg
3.4 SAR
Specific Absorption Rate (SAR): 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), as shown in the following
equation:
SAR
d dW
dt dm
d dW
dt dV
SAR is expressed in units of watts per kilogram (W/kg) or equivalently milliwatts per gram (mW/g).
SAR is related to the E-field at a point by the following equation:
|E|
SAR
where
σ = conductivity of the tissue (S/m)
ρ = mass density of the tissue (kg/m3)
E = rms E-field strength (V/m)
3.5 Test Location
UL Japan, Inc. Ise EMC Lab.
Shielded room for SAR testings
NVLAP Lab. code: 200572-0 / FCC Test Firm Registration Number: 199967 / ISED SAR Lab Company Number: 2973C
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone : +81 596 24 8999
Facsimile : +81 596 24 8124
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
Page
FCC ID
Issued date
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April 9, 2018
SECTION4: Test result
4.1 Stand-alone SAR result
Reported SAR
Measured SAR is scaled to the maximum tune-up tolerance limit by the following formulas.
Reported SAR= Measured SAR [W/kg] ꞏ Scaled factor
Maximum tune-up tolerance limit is by the specification from a customer.
* Scaled factor = Maximum tune-up tolerance limit [mW] / Measured power [mW]
Body SAR
M ode
Frequency
[M Hz]
M aximum tune-up M aximum tune-up M easured average
tolerance limit
tolerance limit
power
[dBm]
[mW]
(Burst power)
[dBm]
M easured average Power
Duty
power
Scaled factor [%]
(Burst power)
[mW]
Duty
Scaled
factor
M easured
Reported
SAR [W/kg] SAR [W/kg]
WLAN11b
2462
8.50
7.08
8.25
6.68
1.059
99.0
1.010
0.105
0.112
Bluetooth
LE
2480
8.00
6.31
7.30
5.37
1.175
66.1
1.513
0.054
0.096
Note(s):
1.
2.
3.
4.
Power Scaled factor = Maximum tune-up tolerance limit [mW] / Measured power [mW]
Duty Scaled factor = 1 / Duty(%) / 100
Reported SAR= Measured SAR [W/kg] ꞏ Power Scaled factor ꞏ Duty Scaled factor
The sample used by the SAR test is not more than 2 dB lower than the maximum tune-up tolerance limit. That is, measured
power is included the tune-up tolerance range.
Maximum tune-up tolerance limit is defined by a customer as duty100%.
4.2 Simultaneous transmission SAR result
Wireless LAN and Bluetooth LE do not transmit simultaneously.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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FCC ID
Issued date
12105528H-A
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SECTION5: Tune-up tolerance information and software information
Maximum tune-up tolerance limit(Burst average)
Mode
Band
WLAN 11b
WLAN 11g
WLAN 11n20
Bluetooth LE
2.4GHz
2.4GHz
2.4GHz
2.4GHz
Maximum tune-up tolerance limit
[dBm]
Maximum tune-up tolerance limit
[mW]
8.50
8.50
8.50
8.00
7.08
7.08
7.08
6.31
Maximum tune-up tolerance limit is defined by a customer as duty100%.
Software setting
*The power value of the EUT was set for testing as follows (setting value might be different from product specification
value);
Power settings:
11b: 8.5dBm, 11g: 8.5dBm, 11n20: 8.5dBm
Software:
FF180001 wireless test firmware v1.0
Power settings:
Bluetooth LE: 8dBm
Software:
FF180001 wireless test firmware v1.0
*This setting of software is the worst case.
The test was performed with condition that obtained the maximum average power (Burst) in pre-check.
Any conditions under the normal use do not exceed the condition of setting.
In addition, end users cannot change the settings of the output power of the product.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
Page
FCC ID
Issued date
12105528H-A
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Duty Confirmation
11b 1 Mbps
Tx on / (Tx on + Tx off) =
Tx on / (Tx on + Tx off) * 100 =
Duty factor = 10 * log (8.704 / 8.617) =
Duty S caled factor = 100% / 99% =
11g 6 Mbps
0.990
99.0 %
0.04 dB
1.010
0.936
93.6 %
0.29 dB
1.068
Bluetooth LE
11n-20 MCS 0
Tx on / (Tx on + Tx off) =
Tx on / (Tx on + Tx off) * 100 =
Duty factor = 10 * log (1.438 / 1.339) =
Duty S caled factor = 100% / 93.1% =
Tx on / (Tx on + Tx off) =
Tx on / (Tx on + Tx off) * 100 =
Duty factor = 10 * log (1.528 / 1.43) =
Duty S caled factor = 100% / 93.6% =
0.931
93.1 %
0.31 dB
1.074
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Tx on / (Tx on + Tx off) =
Tx on / (Tx on + Tx off) * 100 =
Duty factor = 10 * log (625 / 413.1) =
Duty S caled factor = 100% / 66.1% =
0.661
66.1 %
1.80 dB
1.513
Test report No.
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SECTION6: RF Exposure Conditions (Test Configurations)
6.1 Summary of the distance between antenna and surface of EUT
Test position
Front
Rear
Left
Left tilt
Right
Top
Bottom
Distance
5.145 mm
28.6 mm
4.3 mm
3.167 mm
106.7 mm
59.125 mm
2.5 mm
*Details are shown in appendix 4
6.2 SAR test exclusion considerations according to KDB447498 D01
The following is based on KDB447498D01.
1) The 1-g and 10-g SAR test exclusion thresholds for 100 MHz to 6 GHz at test separation distances ≤ 50 mm are
determined by:
[(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)] ꞏ[√f(GHz)] ≤ 3.0
for 1-g SAR and ≤ 7.5 for 10-g extremity SAR
1.
2.
3.
4.
5.
The upper frequency of the frequency band was used in order to calculate standalone SAR test exclusion
considerations.
Power and distance are rounded to the nearest mW and mm before calculation
The result is rounded to one decimal place for comparison
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. When the separation of
antenna to EUT’s surfaces and edges are ≤ 50 mm, the separation distance used for the SAR exclusion calculations
is 5 mm.
“N/A” displayed on below exclusion calculation means not applicable this formula since distance between antenna
and surface is > 50 mm.
When the calculated threshold value by a numerical formula above-mentioned in the following table is 3.0 or less, SAR
test is excluded.
SAR exclusion calculations for antenna <50mm from the user
Antenna
Tx
Interface
Frequency
(MHz)
Main
11b
2462
Output Power
Calculated T hreshold Value
dBm
mW
T op
Bottom
Right
Left
Front
8.50
N/A
2.2
N/A
2.2
2.2
0.4
-EXEMP T-
-EXEMP T-
-EXEMP T-
-EXEMP T-
Main
11g
2462
8.50
N/A
Main
11n20
2462
8.50
N/A
2.2
N/A
-EXEMP T2.2
N/A
-EXEMP T-
Main
BT LE
2480
8.00
N/A
-EXEMP T-
Antenna
Tx
Interface
Frequency
(MHz)
Output Power
dBm
mW
Main
11b
2462
8.50
Main
11g
2462
8.50
Calculated T hreshold Value
Left tilt
2.2
-EXEMP T2.2
-EXEMP T-
Main
11n20
2462
8.50
Main
BT LE
2480
8.00
2.2
-EXEMP T2
-EXEMP T-
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N/A
Rear
2.2
2.2
0.4
-EXEMP T-
-EXEMP T-
-EXEMP T-
2.2
2.2
0.4
-EXEMP T-
-EXEMP T-
-EXEMP T-
0.3
-EXEMP T-
-EXEMP T-
-EXEMP T-
Test report No.
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2) At 100 MHz to 6 GHz and for test separation distances > 50 mm, the SAR test exclusion threshold is determined
according to the following.
a) [(3ꞏ50)/(√f(GHz))) + (test separation distance - 50 mm)ꞏ(f(MHz)/150)] mW at > 100 MHz and ≤ 1500 MHz
b) [(3ꞏ50)/(√f(GHz))) + (test separation distance - 50 mm)ꞏ10] mW at > 1500 MHz and ≤ 6 GHz
1.
2.
3.
The upper frequency of the frequency band was used in order to calculate standalone SAR test exclusion
considerations.
Power and distance are rounded to the nearest mW and mm before calculation
“N/A” displayed on below exclusion calculation means not applicable this formula since distance between antenna
and surface is < 50 mm.
When output power is less than the calculated threshold value by a numerical formula above-mentioned in the following
table, SAR test is excluded.
SAR exclusion calculations for antenna >50mm from the user
Antenna
Tx
Interface
Frequency
(MHz)
Main
11b
2462
Output Power
dBm
8.50
mW
Calculated T hreshold Value
T op
Bottom
186.8 mW
N/A
-EXEMP T-
Main
11g
2462
8.50
Main
11n20
2462
8.50
Main
BT LE
2480
8.00
186.8 mW
N/A
-EXEMP T186.8 mW
Tx
Interface
Frequency
(MHz)
Output Power
Calculated T hreshold Value
Main
11b
2462
dBm
8.50
mW
Left tilt
Main
11g
2462
8.50
N/A
Main
11n20
2462
8.50
N/A
Main
BT LE
2480
8.00
N/A
Front
Rear
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
662.6 mW
662.6 mW
-EXEMP T-
N/A
-EXEMP T-
Antenna
Left
-EXEMP TN/A
-EXEMP T186.5 mW
Right
662.6 mW
-EXEMP T-
N/A
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662.3 mW
-EXEMP T-
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6.3 SAR test exclusion considerations according to KDB UMPC
Based on KDB941225 D07, UMPC mini-tablet devices must be tested for 1-g SAR on all surfaces and side edges with
a transmitting antenna location at ≦25 mm from that surface or edges, at 5 mm separation from a flat phantom, for the
data modes, wireless technologies and frequency bands by the devices to determine SAR compliance.
Antenna
Tx
Interface
Frequency
(MHz)
dBm
mW
T op
Bottom
Right
Left
Front
Rear
Main
11b
2462
8.50
7.08
EXEMPT
MEASURE
EXEMPT
MEASURE
MEASURE
EXEMPT
Main
11g
2462
8.50
7.08
EXEMPT
MEASURE
EXEMPT
MEASURE
MEASURE
EXEMPT
Main
11n20
2462
8.50
7.08
EXEMPT
MEASURE
EXEMPT
MEASURE
MEASURE
EXEMPT
Main
BT LE
2480
8.00
6.31
EXEMPT
MEASURE
EXEMPT
MEASURE
MEASURE
EXEMPT
Antenna
Tx
Interface
Frequency
(MHz)
Main
11b
2462
Output Power
Output Power
SAR test required
SAR test required
dBm
mW
Left tilt
8.50
7.08
MEASURE
Main
11g
2462
8.50
7.08
MEASURE
Main
11n20
2462
8.50
7.08
MEASURE
Main
BT LE
2480
8.00
6.31
MEASURE
In spite of SAR test on all surfaces and side edges can be exempted based on KDB447498 D01 as shown in section 6.2,
a conservative SAR test based on KDB 941225 D07 UMPC Mini Tablet was conducted.(Customer’s request)
UL Japan, Inc.
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Facsimile: +81 596 24 8124
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SECTION7: Description of the Body setup
7.1 Procedure for SAR test position determination
-The tested procedure was performed according to the KDB 941225 D07 (SAR Evaluation Procedures for UMPC MiniTablet Devices).
7.2 Test position for Body setup
No. Position
Front
Rear
Left
Left tilt
Right
Top
Bottom
Test
distance
0mm
0mm
0mm
0mm
0mm
0mm
0mm
WLAN
Tested
☑
☐
☑
☑
☐
☐
☑
*The test was conservatively performed with test distance 0mm.
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Bluetooth LE
Tested
☑
☐
☑
☑
☐
☐
☑
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SECTION8: Description of the operating mode
8.1 Output Power and SAR test required
According to KDB248227D01, The initial test configuration for 2.4 GHz and 5 GHz OFDM transmission modes is
determined by the 802.11 configuration with the highest maximum output power specified for production units,
including tune-up 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.
When multiple configurations in a frequency band have the same specified maximum output power, the initial test
configuration is determined according to the following steps applied sequentially.
1. The largest channel bandwidth configuration is selected among the multiple configurations with the same specified
maximum output power.
2. If multiple configurations have the same specified maximum output power and largest channel bandwidth, the
lowest order modulation among the largest channel bandwidth configurations is selected.
3. If multiple configurations have the same specified maximum output power, largest channel bandwidth and lowest
order modulation, the lowest data rate configuration among these configurations is selected.
4. 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, 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.
WLAN 2.4GHz (DTS Band)
Band
(GHz)
Mode
Data Rate
Ch #
Freq.
(MHz)
Measured Burst
T une-up upper
Average Power
Power (dBm)
(dBm)
Initial test
configuration
2.4
11b
1 Mbps
2412
8.50
8.34
Yes
2437
8.50
8.18
11g
11n20
6 Mbps
6.5 Mbps
11
2462
8.50
8.25
2412
8.50
8.48
2437
8.50
8.48
11
2462
8.50
8.49
2412
8.50
8.35
2437
8.50
8.48
11
2462
8.50
8.32
Note(s)
Note(s):
1.
2.
3.
Provided higher maximum output power is not specified for the other channels, channels 1, 6 and 11 are used to
configure DSSS and OFDM channels for SAR measurements; otherwise, the closest adjacent channel with the
highest maximum output power specified for production units should be tested instead of channels 1, 6 or 11.
When the highest reported SAR for the initial test configuration is adjusted by the ratio of the subsequent test
configuration to 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.
Initial SAR test channel was chosen. (shaded blue frame)
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Bluetooth LE
Band
(GHz)
Mode
Ch #
Freq.
(MHz)
Measured Burst
Average
Pow er (dBm)
SAR Test
(Yes/No)
BT Ant Tx
2.4
BTLE
2402
6.56
19
2440
6.96
39
2480
7.30
Note(s):
1. Initial SAR test channel was chosen. (shaded blue frame)
UL Japan, Inc.
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Yes
Note(s)
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8.2 Correlation of Output Power
Correlation of Output Power between original test report and this SAR tests
Refer to for original report of WLAN/Bluetooth module(M/N: TYPE1FJ, FCC ID: W2Z-02100005, Report No:
ER/2017/90136, ER/2017/90137)
Maximum measured
Measured average
average
Pow er in this SAR Deviation (dB)
Pow er of Original
test (dBm)
test report (dBm)
Band
(GHz)
Mode
Data Rate
Ch #
Freq.
(MHz)
2.4
WLAN
11b 1 Mbps
2437
8.39
8.34
-0.05
WLAN
11g 6Mbps
2437
8.49
8.49
0.00
WLAN
11n20 MCS0
2412
8.49
8.48
-0.01
Bluetooth
LE
39
2480
7.54
7.30
-0.24
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SECTION9: Test surrounding
9.1 Measurement uncertainty
This measurement uncertainty budget is suggested by IEEE Std 1528(2013) and IEC62209-2:2010, and determined by
Schmid & Partner Engineering AG (DASY5 Uncertainty Budget). Per KDB 865664 D01 SAR Measurement 100 MHz
to 6 GHz Section 2.8.1., when the highest measured SAR(1g) within a frequency band is < 1.5W/kg, the extensive SAR
measurement uncertainty analysis described in IEEE Std.1528 (2013) is not required in SAR reports submitted for
equipment approval.
<0.3 – 3GHz range Body>
Error Description
Measurement System
Probe calibration
Axial isotropy of the probe
Spherical isotropy of the probe
Boundary effects
Probe linearity
Detection limit
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 uncertainty
Power drift
Power Scaling
Phantom and Setup
Phantom uncertainty
Algorithm for correcting SAR for deviations
in permittivity and conductivity
Liquid conductivity (meas.)
Liquid permittivity (meas.)
Liquid conductivity
- temp.unc (below 2deg.C.)
Liquid permittivity
- temp.unc (below 2deg.C.)
Uncertai Probability
value ± distribution
divisor
(ci)
1g
Standard
(1g)
±
±
±
±
±
±
±
±
±
±
±
±
±
±
±
6.00
4.7
9.6
1.0
4.7
1.0
2.4
0.3
0.8
2.6
3.0
3.0
0.4
2.9
2.0
Normal
Rectangular
Rectangular
Rectangular
Rectangular
Rectangular
Rectangular
Normal
Rectangular
Rectangular
Rectangular
Rectangular
Rectangular
Rectangular
Rectangular
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
0.7
0.7
±
±
±
±
±
±
±
±
±
±
±
±
±
±
±
6.00
1.9
3.9
0.6
2.7
0.6
1.4
0.3
0.5
1.5
1.7
1.7
0.2
1.7
1.2
±
±
±
2.9
3.6
5.0
0.0
Normal
Normal
Rectangular
Rectangular
√3
√3
±
±
±
±
2.9
3.6
2.9
0.0
± 6.1
Rectangular
√3
± 3.5
± 1.9
Rectangular
√3
± 1.1
- 1.5
- 0.4
Rectangular
Rectangular
√3
√3
0.78
0.26
+ 0.7
- 0.1
± 5.2
Rectangular
√3
0.78
± 2.3
± 0.8
Rectangular
√3
0.23
± 0.1
Combined Standard Uncertainty
Expanded Uncertainty (k=2)
*. Table of uncertainties are listed for ISO/IEC 17025.
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± 11.174
± 22.3
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SECTION10: Parameter Check
The dielectric parameters were checked prior to assessment using the DAK dielectric probe kit.
The dielectric parameters measurement is reported in each correspondent section.
According to KDB865664 D01, +/- 5% tolerances are required for εr and σ and then below table which is the target
value of the simulated tissue liquid is quoted from KDB865664 D01.
10.1 For SAR system check
Date
Ambient
Temp.
[deg.c]
Relative
Humidity
[%]
2018/3/1
24.0
45
2018/3/14
24.0
45
DIELECTRIC PARAMETERS MEAS UREMENT RES ULTS
Liquid M easured
Target
Liquid type
Temp. Frequency Parameters
M easured
Value
[deg.c]
[M Hz]
M SL 2450
M SL 2450
23.5
23.5
2450
2450
Deviation
[%]
Limit
[%]
σ [mho/m]
1.95
1.96
0.5
+/-5
εr
52.7
52.7
0.1
+/-5
σ [mho/m]
1.95
1.94
-0.4
+/-5
εr
52.7
52.6
-0.3
+/-5
Remark
*1
*2
σ : Conductivity / εr: Relative Permittivity
*1 The Target value is a parameter defined in KDB 865664D01.
*2 The dielectric parameters should be linearly interpolated between the closest pair of target frequencies to determine
the applicable dielectric parameters corresponding to the device test frequency.
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Correlation confirmation with measured TSL parameters of the calibration certificate of system check dipoles
(Refer to Appendix 3)
+/- 6% limit for deviation provided by manufacture tolerances are required for εr and σ and then below table which is
the target value of the simulated tissue liquid is quoted from data measured TSL parameters of dipole calibration.
Freq
[MHz]
Model,S/N
2450
D2450,713
Date
Ambient
Temp.
[deg.c]
Relative
Humidity
[%]
2018/3/1
24.0
45
2018/3/14
24.0
Head
45
Body
σ
1.88
ε
37.9
σ
2.04
ε
51.6
DIELECTRIC PARAMETERS MEAS UREMENT RES ULTS
Liquid M easured
Target
Liquid type
Temp. Frequency Parameters
M easured
Value*1
[deg.c]
[M Hz]
M SL 2450
M SL 2450
23.5
23.5
2450
2450
εr: Relative Permittivity / σ : Conductivity
*1 The Target value is a parameter defined in each Dipole.
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Facsimile: +81 596 24 8124
Deviation
[%]
Limit
[%]
σ [mho/m]
2.04
1.96
-4.0
+/-6
εr
51.6
52.7
2.2
+/-6
σ [mho/m]
2.04
1.94
-4.8
+/-6
εr
51.6
52.6
1.9
+/-6
Remark
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10.2 For SAR measurement
Date
2018/3/1
2018/3/1
2018/3/1
2018/3/14
2018/3/14
2018/3/14
2018/3/14
DIELECTRIC PARAMETERS MEASUREMENT RESULTS
Ambient Relative
Liquid Measured
Deviation Limit
Target
Remark
Measured
Temp. Humidity
Liquid type
Temp. Frequency Parameters
[%]
[%]
Value
[deg.c]
[%]
[deg.c]
[MHz]
24.0
24.0
24.0
24.0
24.0
24.0
24.0
45
45
45
45
45
45
45
MSL 2450
MSL 2450
MSL 2450
MSL 2450
MSL 2450
MSL 2450
MSL 2450
23.5
23.5
23.5
23.5
23.5
23.5
23.5
2412
2437
2462
2402
2440
2480
2412
σ [mho/m]
1.91
1.91
-0.5
+/-5
εr
52.8
52.9
0.2
+/-5
σ [mho/m]
1.94
1.94
0.1
+/-5
εr
52.7
52.8
0.1
+/-5
σ [mho/m]
1.97
1.98
0.6
+/-5
εr
52.7
52.7
0.0
+/-5
σ [mho/m]
1.90
1.88
-1.5
+/-5
εr
52.8
52.7
0.0
+/-5
σ [mho/m]
1.94
1.93
-0.7
+/-5
εr
52.7
52.6
-0.2
+/-5
σ [mho/m]
1.99
1.99
-0.2
+/-5
εr
52.7
52.4
-0.4
+/-5
σ [mho/m]
1.91
1.89
-1.4
+/-5
εr
52.8
52.7
-0.1
+/-5
*2
*2
*2
*2
*2
*2
*2
σ : Conductivity / εr: Relative Permittivity
*1 The Target value is a parameter defined in KDB 865664D01.
*2 The dielectric parameters should be linearly interpolated between the closest pair of target frequencies to determine
the applicable dielectric parameters corresponding to the device test frequency.
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SECTION11: System Check confirmation
The measurements were performed in the flat section of the TWIN SAM or ELI phantom, shell thickness: 2.0 ±0.2 mm
(bottom plate) filled with Body or Head simulating liquid of the following parameters.
The depth of tissue-equivalent liquid in a phantom must be ≥ 15.0 cm ± 0.5 cm for SAR measurements ≤ 3 GHz and ≥
10.0 cm ± 0.5 cm for measurements > 3 GHz.
The DASY system with an E-Field Probe was used for the measurements.
The dipole was mounted on the small tripod so that the dipole feed point was positioned below the center marking of
the flat phantom section and the dipole was oriented parallel to the body axis (the long side of the phantom).
The standard measuring distance was 10 mm (above 1GHz to 6GHz) and 15 mm (below 1GHz) from dipole center to
the simulating liquid surface.
The coarse grid with a grid spacing of 12 mm (1GHz to 3GHz) and15 mm (below 1GHz) was aligned with the dipole.
For 5 GHz band - The coarse grid with a grid spacing of 10 mm was aligned with the dipole.
Special 7x7x7 (below 3 GHz) and/or 8x8x7 (above 3 GHz) fine cube was chosen for the cube.
Distance between probe sensors and phantom surface was set to 3 mm.
For 5 GHz band - Distance between probe sensors and phantom surface was set to 2.5 mm
The dipole input power (forward power) was 100 mW(For 5GHz band) or 250 mW(For other band).
The results are normalized to 1 W input power.
Target Value
Freq
[MHz]
Model,S/N
Body
(SPEAG) (SPEAG)
1g [W/kg] 10g[W/kg]
D2450,713
52.00
24.44
2450
*1 The target(reference) SAR values can be obtained from the calibration certificate of system validation dipoles(Refer
to Appendix 2). The target SAR values are SAR measured value in the calibration certificate scaled to 1W.
M easured Results
T.S.
Liquid
Date Tested
Test Freq
M odel,S/N
2018/3/1
2450
D2450,713
Body
2018/3/14
2450
D2450,713
Body
Zoom Scan
1g
10g
1g
10g
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
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Facsimile: +81 596 24 8124
12.50
5.75
12.20
5.61
Normalize
to 1 W
50.0
23.0
48.8
22.44
Target
(Ref.
Value)
Delta
±10 %
52.00
24.44
52.00
24.44
-3.8
-5.9
-6.2
-8.2
Test report No.
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SECTION12: Measured and Reported (Scaled) SAR Results
WLAN SAR Test Reduction criteria are as follows
 KDB 248227 D01 (SAR Guidance for 802.11(Wi-Fi) Transmitters):
SAR test reduction for 802.11 WLAN transmission mode configurations are considered separately for DSSS and
OFDM. An initial test position is determined to reduce the number of tests required for certain exposure configurations
with multiple test positions. An initial test configuration is determined for each frequency band and aggregated band
according to maximum output power, channel bandwidth, wireless mode configurations and other operating parameters
to streamline the measurement requirements. For 2.4 GHz DSSS, either the initial test position or DSSS procedure is
applied to reduce the number of SAR tests; these are mutually exclusive. For OFDM, an initial test position is only
applicable to next to the ear, UMPC mini-tablet and hotspot mode configurations, which is tested using the initial test
configuration to facilitate test reduction. For other exposure conditions with a fixed test position, SAR test reduction is
determined using only the initial test configuration.
The multiple test positions require SAR measurements in head, hotspot mode or UMPC mini-tablet configurations may
be reduced according to the highest reported SAR determined using the initial test position(s) by applying the DSSS or
OFDM SAR measurement procedures in the required wireless mode test configuration(s). The initial test position(s) is
measured using the highest measured maximum output power channel in the required wireless mode test
configuration(s). When the reported SAR for the initial test position is:
 ≤ 0.4 W/kg, further SAR measurement is not required for the other test positions in that exposure configuration
and wireless mode combination within the frequency band or aggregated band. DSSS and OFDM
configurations are considered separately according to the required SAR procedures.
 > 0.4 W/kg, SAR is repeated using the same wireless mode test configuration tested in the initial test position
to measure the subsequent next closet/smallest test separation distance and maximum coupling test position, on
the highest maximum output power channel, until the reported SAR is ≤ 0.8 W/kg or all required test positions
are tested.
o For subsequent test positions with equivalent test separation distance or when exposure is dominated
by coupling conditions, the position for maximum coupling condition should be tested.
o When it is unclear, all equivalent conditions must be tested.
 For all positions/configurations tested using the initial test position and subsequent test positions, when the
reported SAR is > 0.8 W/kg, measure the SAR for these positions/configurations on the subsequent next
highest measured output power channel(s) until the reported SAR is ≤ 1.2 W/kg or all required test channels
are considered.
o The additional power measurements required for this step should be limited to those necessary for
identifying subsequent highest output power channels to apply the test reduction.
 When the specified maximum output power is the same for both UNII 1 and UNII 2A, begin SAR
measurements in UNII 2A with the channel with the highest measured output power. If the reported SAR for
UNII 2A is ≤ 1.2 W/kg, SAR is not required for UNII 1; otherwise treat the remaining bands separately and
test them independently for SAR.
 When the specified maximum output power is different between UNII 1 and UNII 2A, begin SAR with the
band that has the higher specified maximum output. If the highest reported SAR for the band with the highest
specified power is ≤ 1.2 W/kg, testing for the band with the lower specified output power is not required;
otherwise test the remaining bands independently for SAR.
To determine the initial test position, Area Scans were performed to determine the position with the Maximum Value of
SAR (measured). The position that produced the highest Maximum Value of SAR is considered the worst case position;
thus used as the initial test position.
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Bluetooth LE SAR Test Reduction criteria are as follows
KDB 447498 D01 (General RF Exposure Guidance):
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

When reported SAR value is exceed 1.2W/kg(if any), device holder perturbation verification is required; however,
since distance between device holder and antenna of EUT is enough, it was not conducted.

Reported SAR= Measured SAR [W/kg] ꞏ Scaled factor
* Scaled factor = Maximum tune-up tolerance limit [mW] / Measured power [mW]
Maximum tune-up tolerance limit is by the specification from a customer.

Note: Measured value is rounded round off to three decimal places
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12.1 WLAN 2.4GHz Band
Test Position
M ode
Dist.
(mm)
Front
802.11b
Left
802.11b
Left tilt
802.11b
Bottom
802.11b
Ch #.
Freq.
(M Hz)
11
11
11
11
2412
2437
2462
2412
2437
2462
2412
2437
2462
2412
2437
2462
Power (dBm)
Tune-up M easured
Power Scaled
upper
average
factor
Power
Power
8.50
8.34
1.038
8.50
8.18
1.076
8.50
8.25
1.059
8.50
8.34
1.038
8.50
8.18
1.076
8.50
8.25
1.059
8.50
8.34
1.038
8.50
8.18
1.076
8.50
8.25
1.059
8.50
8.34
1.038
8.50
8.18
1.076
8.50
8.25
1.059
1-g SAR (W/kg)
Duty Scaled
factor
1.010
1.010
1.010
1.010
1.010
1.010
1.010
1.010
1.010
1.010
1.010
1.010
M eas.
Reported
0.087
0.101
0.105
0.048
0.091
0.110
0.112
0.050
0.073
0.076
0.055
0.058
Although testing of other required channels within the operating mode of a frequency band is not required based on
KDB 447498 D 01 when the reported SAR for the highest output power channel is ≤ 0.8 W/kg, SAR measurement for
other required channels were conducted as a conservative test.
OFDM was excluded from the following table according to KDB248227D01.
SAR is not required for the following 2.4 GHz OFDM conditions according to KDB248227D01.
1) When KDB447498D01 SAR test exclusion applies to the OFDM configuration.
2) 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.
Maximum tune-up
tolerance limit
Maximum tune-up
tolerance limit
DSSS
OFDM
[dBm]
8.50
[mW]
7.08
[dBm]
8.50
[mW]
7.08
OFDM
scaled
factor
1.000
Position
Front
DSSS
OFDM
Exclusion S tandalone
Reported
Estimated limit [W/kg] S AR
request
SAR value SAR value
[W/kg]
[W/kg]
0.112
0.112
< 1.2
No
Note(s):


OFDM scaled factor = Maximum tune-up tolerance limit of OFDM [mW] / Maximum tune-up tolerance limit of DSSS [mW]
Estimated SAR of OFDM= Reported SAR of DSSS[W/kg] ꞏ OFDM scaled factor
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Ise EMC Lab.
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Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
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12.2 Bluetooth LE
Test Position
M ode
Dist.
(mm)
Front
BTLE
Left
BTLE
Left tilt
Bottom
BTLE
BTLE
Ch #.
Freq.
(M Hz)
19
39
19
39
19
39
19
39
2402
2440
2480
2402
2440
2480
2402
2440
2480
2402
2440
2480
Power (dBm)
Tune-up M easured
Power Scaled
upper
average
factor
Power
Power
8.00
6.56
1.393
8.00
6.96
1.271
8.00
7.30
1.175
8.00
6.56
1.393
8.00
6.96
1.271
8.00
7.30
1.175
8.00
6.56
1.393
8.00
6.96
1.271
8.00
7.30
1.175
8.00
6.56
1.393
8.00
6.96
1.271
8.00
7.30
1.175
1-g SAR (W/kg)
Duty Scaled
factor
1.513
1.513
1.513
1.513
1.513
1.513
1.513
1.513
1.513
1.513
1.513
1.513
M eas.
Reported
0.043
0.042
0.054
0.091
0.081
0.096
0.020
0.036
0.040
0.071
0.029
0.052
Although testing of other required channels within the operating mode of a frequency band is not required based on KDB 447498 D
01 when the reported SAR for the highest output power channel is ≤ 0.8 W/kg, SAR measurement for other required channels were
conducted as a conservative test.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
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SECTION13: Test instruments
Control No.
Instrument
MNA-03
Vector Reflectometer
MDPK-03
Dielectric assessment
kit
Digital thermometer
Dielectric assessment
software
Dual Power Meter
Power sensor
Power sensor
Pre Amplifier
Signal Generator
Attenuator
Dual Directional
Coupler
Dipole Antenna
MOS-37
COTSMSAR-04
MPM-11
MPSE-15
MPSE-16
MRFA-24
MSG-10
MAT-78
MHDC-12
MDA-07
MMSL2450 Tissue simulation
liquid (Body)
MDAE-01
MPB-07
MPF-02
MDH-01
Data Acquisition
Electronics
Dosimetric E-Field
Probe
2mm Oval Flat
Phantom
Device holder
MOS-26
COTSMSAR-03
MRBT-02
Thermo-Hygrometer
Dasy5
MDAE-03
MDH-03
Data Acquisition
Electronics
Dosimetric E-Field
Probe
2mm Oval Flat
Phantom
Device holder
MOS-35
MRBT-04
Digital thermometer
SAR robot
MPB-09
MPF-04
SAR robot
Manufacturer
Copper Mountain
Technologies
Schmid&Partner
Engineering AG
LKM electronic
Schmid&Partner
Engineering AG
Agilent
Agilent
Agilent
R&K
Agilent
Telegrartner
Hewlett Packard
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
CUSTOM
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
HANNA
Schmid&Partner
Engineering AG
Model No
Serial No
Test Item
PLANAR R140
0030913
SAR
Calibration Date *
Interval(month)
2017/04/22 * 12
DAK-3.5
0008
SAR
2017/04/18 * 12
DTM3000
DAK
SAR
SAR
2017/07/26 * 12
E4419B
E9301A
E9301A
R&K CGA020M602-2633R
N5181A
J01156A0011
772D
MY45102060
MY41498311
MY41498313
B30550
MY47421098
0042294119
2839A0016
2017/08/25 * 12
2017/08/25 * 12
2017/08/25 * 12
2017/06/12 * 12
2017/11/29 * 12
Pre Check
Pre Check
D2450V2
713
SAR
SAR
SAR
SAR
SAR
SAR
SAR(218GHz)
SAR(D2450)
MSL2450V2
DAE4
SL AA 245 BA SAR*Daily
Pre Check
Check Target
Value ±5%
509
SAR
2017/07/11 * 12
EX3DV4
3825
SAR
2017/12/11 * 12
QDOVA001BB
1045
SAR
2017/05/17 * 12
Mounting device for
transmitter
CTH-201
DASY5
SAR
Pre Check
A08Q29
SAR
SAR
2017/04/21 * 12
TX60 Lspeag
2017/09/19 * 12
DAE4
F10/5E3LA1/A SAR
/01
1372
SAR
2017/06/13 * 12
EX3DV4
3922
SAR
2017/11/15 * 12
QDOVA001BB
1207
SAR
2017/05/17 * 12
Mounting device for
transmitter
Checktemp 4
TX60 Lspeag
SAR
Pre Check
SAR
F13/5PPLA1/A SAR
/01
2016/09/13 * 24
2017/07/26 * 12
2017/06/30 * 12
*1) This test equipment was used for the tests before the expiration date of the calibration.
The expiration date of the calibration is the end of the expired month.
All equipment is calibrated with valid calibrations. Each measurement data is traceable to the national or international standards.
As for some calibrations performed after the tested dates, those test equipment have been controlled by means of an unbroken chains of
calibrations.
SAR room is checked before every testing and ambient noise is <0.012W/kg
UL Japan, Inc.
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System Check
20180301 Body 2450MHz System Check Power 250mW
Communication System: UID 0, CW (0); Communication System Band: D2450 (2450.0 MHz); Frequency: 2450 MHz;
Duty Cycle: 1:1
Medium parameters used: f = 2450 MHz; σ = 1.959 S/m; εr = 52.741; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3825; ConvF(7.77, 7.77, 7.77); Calibrated: 2017/12/11;
Sensor-Surface: 2mm (Mechanical Surface Detection), Sensor-Surface: 0mm (Fix Surface)
Electronics: DAE4 Sn509; Calibrated: 2017/07/11
Phantom: ELI v4.0 (20deg probe tilt); Type: QDOVA001BB; Serial: TP:1045
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (81x71x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 19.6 W/kg
Zoom Scan (7x7x7) (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 99.33 V/m; Power Drift = 0.01 dB
Peak SAR (extrapolated) = 25.5 W/kg
SAR(1 g) = 12.5 W/kg; SAR(10 g) = 5.75 W/kg
Maximum value of SAR (measured) = 18.9 W/kg
Z Scan (1x1x31): Measurement grid: dx=20mm, dy=20mm, dz=5mm
Maximum value of SAR (measured) = 19.7 W/kg
Date: 2018/03/01
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
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20180314 Body 2450MHz System Check Power 250mW
Communication System: UID 0, CW (0); Communication System Band: D2450 (2450.0 MHz); Frequency: 2450 MHz;
Duty Cycle: 1:1
Medium parameters used: f = 2450 MHz; σ = 1.943 S/m; εr = 52.566; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3922; ConvF(7.68, 7.68, 7.68); Calibrated: 2017/11/15;
Sensor-Surface: 2mm (Mechanical Surface Detection), Sensor-Surface: 0mm (Fix Surface)
Electronics: DAE4 Sn1372; Calibrated: 2017/06/13
Phantom: ELI v5.0 (30deg probe tilt); Type: QDOVA001BB; Serial: TP:1207
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (81x71x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 19.0 W/kg
Zoom Scan (7x7x7) (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 99.91 V/m; Power Drift = -0.01 dB
Peak SAR (extrapolated) = 25.0 W/kg
SAR(1 g) = 12.2 W/kg; SAR(10 g) = 5.61 W/kg
Maximum value of SAR (measured) = 18.6 W/kg
Z Scan (1x1x31): Measurement grid: dx=20mm, dy=20mm, dz=5mm
Maximum value of SAR (measured) = 9.28 W/kg
Date: 2018/03/14
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
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APPENDIX 2 : SAR Measurement data
Evaluation procedure
The evaluation was performed with the following procedure:
Step 1: Measurement of the E-field at a fixed location above the ear point or central position of flat phantom was used as a
reference value for assessing the power drop.
Step 2: The SAR distribution at the exposed side of head or body position was measured at a distance of each device from the
inner surface of the shell. The area covered the entire dimension of the antenna of EUT and the horizontal grid spacing was 15
mm x 15 mm, 12 mm x 12 mm or 10mm x 10mm. Based on these data, the area of the maximum absorption was determined
by spline interpolation.
Step 3: Around this point found in the Step 2 (area scan), a volume of 30mm x 30mm x 30mm or more was assessed by
measuring 7 x 7 x 7 points at least for below 3GHz and a volume of 28 mm x 28mm x 22.5mm or more was assessed by
measuring 8 x 8 x 6(ratio step method (*1)) points at least for 5GHz band.
And for any secondary peaks found in the Step2 which are within 2dB of maximum peak and not with this Step3 (Zoom scan)
is repeated. On the basis of this data set, the spatial peak SAR value was evaluated under the following procedure:
(1). The data at the surface were extrapolated, since the center of the dipoles is 1mm(EX3DV4) away from the tip of the probe
and the distance between the surface and the lowest measuring point is 1.3 mm. The extrapolation was based on a least square
algorithm [4]. A polynomial of the fourth order was calculated through the points in z-axes.
This polynomial was then used to evaluate the points between the surface and the probe tip.
(2). The maximum interpolated value was searched with a straightforward algorithm. Around this maximum the SAR values
averaged over the spatial volumes (1 g or 10 g) were computed by the 3D-Spline interpolation algorithm. The 3D-Spline is
composed of three one-dimensional splines with the “Not a knot"-condition (in x, y and z-directions) [4], [5]. The volume was
integrated with the trapezoidal-algorithm. One thousand points (10 x 10 x 10) were interpolated to calculate the average.
(3). All neighboring volumes were evaluated until no neighboring volume with a higher average value was found.
*1. Ratio step method parameters used;
The first measurement point: 2mm from the phantom surface, the initial grid separation: 2mm, subsequent graded
grid ratio: 1.5
These parameters comply with the requirement of the KDB 865664D01.
Step 4: Re-measurement of the E-field at the same location as in Step 1.
Confirmation after SAR testing
It was checked that the power drift [W] is within +/-5%.The verification of power drift during the SAR test is that DASY5
system calculates the power drift by measuring the e-filed at the same location at beginning and the end of the scan
measurement for each test position.
DASY5 system calculation Power drift value[dB] =20log(Ea)/(Eb)
Before SAR testing
: Eb[V/m]
After SAR testing
: Ea[V/m]
Limit of power drift[W] =+/-5%
X[dB]=10log[P]=10log(1.05/1)=10log(1.05)-10log(1)=0.212dB
from E-filed relations with power.
p=E^2/η=E^2/
Therefore, The correlation of power and the E-filed
XdB=10log(P)=10log(E)^2=20log(E)
Therefore,
The calculated power drift of DASY5 System must be the less than +/-0.212dB.
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Measurement data
WLAN 2.4G 11b 1Mbps 2412MHz Front 0mm
Communication System: UID 0, WLAN 11a/b/g/n (0); Communication System Band: 11b/g/n (2.4G); Frequency: 2412
MHz; Duty Cycle: 1:1
Medium parameters used (interpolated): f = 2412 MHz; σ = 1.905 S/m; εr = 52.856; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3825; ConvF(7.77, 7.77, 7.77); Calibrated: 2017/12/11;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn509; Calibrated: 2017/07/11
Phantom: ELI v4.0 (20deg probe tilt); Type: QDOVA001BB; Serial: TP:1045
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (71x111x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.165 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 8.619 V/m; Power Drift = -0.03 dB
Peak SAR (extrapolated) = 0.195 W/kg
SAR(1 g) = 0.087 W/kg; SAR(10 g) = 0.040 W/kg
Maximum value of SAR (measured) = 0.135 W/kg
Date: 2018/03/01
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
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April 9, 2018
WLAN 2.4G 11b 1Mbps 2437MHz Front 0mm
Communication System: UID 0, WLAN 11a/b/g/n (0); Communication System Band: 11b/g/n (2.4G); Frequency: 2437
MHz; Duty Cycle: 1:1
Medium parameters used (interpolated): f = 2437 MHz; σ = 1.94 S/m; εr = 52.779; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3825; ConvF(7.77, 7.77, 7.77); Calibrated: 2017/12/11;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn509; Calibrated: 2017/07/11
Phantom: ELI v4.0 (20deg probe tilt); Type: QDOVA001BB; Serial: TP:1045
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (71x111x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.170 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 8.801 V/m; Power Drift = 0.05 dB
Peak SAR (extrapolated) = 0.203 W/kg
SAR(1 g) = 0.101 W/kg; SAR(10 g) = 0.047 W/kg
Maximum value of SAR (measured) = 0.145 W/kg
Date: 2018/03/01
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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WLAN 2.4G 11b 1Mbps 2462MHz Front 0mm
Communication System: UID 0, WLAN 11a/b/g/n (0); Communication System Band: 11b/g/n (2.4G); Frequency: 2462
MHz; Duty Cycle: 1:1
Medium parameters used (interpolated): f = 2462 MHz; σ = 1.978 S/m; εr = 52.703; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3825; ConvF(7.77, 7.77, 7.77); Calibrated: 2017/12/11;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn509; Calibrated: 2017/07/11
Phantom: ELI v4.0 (20deg probe tilt); Type: QDOVA001BB; Serial: TP:1045
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (71x111x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.174 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 8.782 V/m; Power Drift = 0.00 dB
Peak SAR (extrapolated) = 0.217 W/kg
SAR(1 g) = 0.105 W/kg; SAR(10 g) = 0.047 W/kg
Maximum value of SAR (measured) = 0.152 W/kg
Date: 2018/03/01
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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WLAN 2.4G 11b 1Mbps 2412MHz Left 0mm
Communication System: UID 0, WLAN 11a/b/g/n (0); Communication System Band: 11b/g/n (2.4G); Frequency: 2412
MHz; Duty Cycle: 1:1
Medium parameters used (interpolated): f = 2412 MHz; σ = 1.905 S/m; εr = 52.856; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3825; ConvF(7.77, 7.77, 7.77); Calibrated: 2017/12/11;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn509; Calibrated: 2017/07/11
Phantom: ELI v4.0 (20deg probe tilt); Type: QDOVA001BB; Serial: TP:1045
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (51x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.107 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 7.183 V/m; Power Drift = 0.04 dB
Peak SAR (extrapolated) = 0.155 W/kg
SAR(1 g) = 0.048 W/kg; SAR(10 g) = 0.015 W/kg
Maximum value of SAR (measured) = 0.0964 W/kg
Date: 2018/03/01
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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WLAN 2.4G 11b 1Mbps 2412MHz Left tilt 0mm
Communication System: UID 0, WLAN 11a/b/g/n (0); Communication System Band: 11b/g/n (2.4G); Frequency: 2412
MHz; Duty Cycle: 1:1
Medium parameters used (interpolated): f = 2412 MHz; σ = 1.905 S/m; εr = 52.856; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3825; ConvF(7.77, 7.77, 7.77); Calibrated: 2017/12/11;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn509; Calibrated: 2017/07/11
Phantom: ELI v4.0 (20deg probe tilt); Type: QDOVA001BB; Serial: TP:1045
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (51x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.124 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 8.664 V/m; Power Drift = -0.19 dB
Peak SAR (extrapolated) = 0.204 W/kg
SAR(1 g) = 0.073 W/kg; SAR(10 g) = 0.023 W/kg
Maximum value of SAR (measured) = 0.131 W/kg
Date: 2018/03/01
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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WLAN 2.4G 11b 1Mbps 2412MHz Bottom 0mm
Communication System: UID 0, WLAN 11a/b/g/n (0); Communication System Band: 11b/g/n (2.4G); Frequency: 2412
MHz; Duty Cycle: 1:1
Medium parameters used (interpolated): f = 2412 MHz; σ = 1.905 S/m; εr = 52.856; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3825; ConvF(7.77, 7.77, 7.77); Calibrated: 2017/12/11;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn509; Calibrated: 2017/07/11
Phantom: ELI v4.0 (20deg probe tilt); Type: QDOVA001BB; Serial: TP:1045
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (71x111x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.142 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 7.207 V/m; Power Drift = -0.20 dB
Peak SAR (extrapolated) = 0.132 W/kg
SAR(1 g) = 0.055 W/kg; SAR(10 g) = 0.025 W/kg
Maximum value of SAR (measured) = 0.0909 W/kg
Date: 2018/03/01
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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Bluetooth LE 2402MHz Front 0mm
Communication System: UID 0, Buletooth (0); Communication System Band: LE; Frequency: 2402 MHz; Duty Cycle:
1:1
Medium parameters used (interpolated): f = 2402 MHz; σ = 1.875 S/m; εr = 52.739; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3922; ConvF(7.68, 7.68, 7.68); Calibrated: 2017/11/15;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1372; Calibrated: 2017/06/13
Phantom: ELI v5.0 (30deg probe tilt); Type: QDOVA001BB; Serial: TP:1207
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (71x111x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.118 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 5.931 V/m; Power Drift = -0.10 dB
Peak SAR (extrapolated) = 0.0860 W/kg
SAR(1 g) = 0.043 W/kg; SAR(10 g) = 0.020 W/kg
Maximum value of SAR (measured) = 0.0628 W/kg
Date: 2018/03/14
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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Bluetooth LE 2440MHz Front 0mm
Communication System: UID 0, Buletooth (0); Communication System Band: LE; Frequency: 2440 MHz; Duty Cycle:
1:1
Medium parameters used: f = 2440 MHz; σ = 1.927 S/m; εr = 52.607; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3922; ConvF(7.68, 7.68, 7.68); Calibrated: 2017/11/15;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1372; Calibrated: 2017/06/13
Phantom: ELI v5.0 (30deg probe tilt); Type: QDOVA001BB; Serial: TP:1207
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (71x111x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.0971 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 5.647 V/m; Power Drift = -0.00 dB
Peak SAR (extrapolated) = 0.0860 W/kg
SAR(1 g) = 0.042 W/kg; SAR(10 g) = 0.019 W/kg
Maximum value of SAR (measured) = 0.0628 W/kg
Date: 2018/03/14
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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Bluetooth LE 2480MHz Front 0mm
Communication System: UID 0, Buletooth (0); Communication System Band: LE; Frequency: 2480 MHz; Duty Cycle:
1:1
Medium parameters used: f = 2480 MHz; σ = 1.989 S/m; εr = 52.438; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3922; ConvF(7.68, 7.68, 7.68); Calibrated: 2017/11/15;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1372; Calibrated: 2017/06/13
Phantom: ELI v5.0 (30deg probe tilt); Type: QDOVA001BB; Serial: TP:1207
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (71x111x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.0937 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 6.461 V/m; Power Drift = 0.07 dB
Peak SAR (extrapolated) = 0.115 W/kg
SAR(1 g) = 0.054 W/kg; SAR(10 g) = 0.023 W/kg
Maximum value of SAR (measured) = 0.0814 W/kg
Date: 2018/03/14
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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Bluetooth LE 2480MHz Left 0mm
Communication System: UID 0, Buletooth (0); Communication System Band: LE; Frequency: 2480 MHz; Duty Cycle:
1:1
Medium parameters used: f = 2480 MHz; σ = 1.989 S/m; εr = 52.438; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3922; ConvF(7.68, 7.68, 7.68); Calibrated: 2017/11/15;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1372; Calibrated: 2017/06/13
Phantom: ELI v5.0 (30deg probe tilt); Type: QDOVA001BB; Serial: TP:1207
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (51x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.0799 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 4.440 V/m; Power Drift = -0.17 dB
Peak SAR (extrapolated) = 0.0670 W/kg
SAR(1 g) = 0.020 W/kg; SAR(10 g) = 0.00564 W/kg
Maximum value of SAR (measured) = 0.0363 W/kg
Date: 2018/03/14
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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Bluetooth LE 2480MHz Left tilt 0mm
Communication System: UID 0, Buletooth (0); Communication System Band: LE; Frequency: 2480 MHz; Duty Cycle:
1:1
Medium parameters used: f = 2480 MHz; σ = 1.989 S/m; εr = 52.438; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3922; ConvF(7.68, 7.68, 7.68); Calibrated: 2017/11/15;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1372; Calibrated: 2017/06/13
Phantom: ELI v5.0 (30deg probe tilt); Type: QDOVA001BB; Serial: TP:1207
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (81x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.0831 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 6.044 V/m; Power Drift = -0.04 dB
Peak SAR (extrapolated) = 0.105 W/kg
SAR(1 g) = 0.040 W/kg; SAR(10 g) = 0.013 W/kg
Maximum value of SAR (measured) = 0.0699 W/kg
Date: 2018/03/14
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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Bluetooth LE 2480MHz Bottom 0mm
Communication System: UID 0, Buletooth (0); Communication System Band: LE; Frequency: 2480 MHz; Duty Cycle:
1:1
Medium parameters used: f = 2480 MHz; σ = 1.989 S/m; εr = 52.438; ρ = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration
Probe: EX3DV4 - SN3922; ConvF(7.68, 7.68, 7.68); Calibrated: 2017/11/15;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn1372; Calibrated: 2017/06/13
Phantom: ELI v5.0 (30deg probe tilt); Type: QDOVA001BB; Serial: TP:1207
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7331)
Area Scan (71x111x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm
Maximum value of SAR (interpolated) = 0.0581 W/kg
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 4.739 V/m; Power Drift = 0.08 dB
Peak SAR (extrapolated) = 0.0750 W/kg
SAR(1 g) = 0.029 W/kg; SAR(10 g) = 0.013 W/kg
Maximum value of SAR (measured) = 0.0476 W/kg
Date: 2018/03/14
Ambient Temp. : 24.0 degree.C. Liquid Temp.; 23.5 degree.C.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
Test report No.
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APPENDIX 3 :
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System specifications
Configuration and peripherals
The DASY5 system for performing compliance tests consist of the following items:
a) A standard high precision 6-axis robot (Stäubli RX family) with controller and software.
An arm extension for accommodating the data acquisition electronics (DAE).
b) An isotropic field probe optimized and calibrated for the targeted measurement.
c) A data acquisition electronic (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.
d) The Electro-optical converter (EOC) performs the conversion between optical and electrical of the signals for
the digital communication to the DAE and for the analog signal from the optical surface detection.
The EOC is connected to the measurement server.
e) The function of the measurement server is to perform the time critical tasks such as signal filtering, control of
the robot operation and fast movement interrupts.
f) The Light Beam used is for probe alignment. This improves the (absolute) accuracy of the
probe positioning.
g) A computer running WinXP and the DASY5 software.
h) Remote control with teaches pendant and additional circuitry for robot safety such as warning lamps, etc.
i) The phantom, the device holder and other accessories according to the targeted measurement.
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
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Specifications
a)Robot TX60L
Number of Axes
Nominal Load
Maximum Load
Reach
Repeatability
Control Unit
Programming Language
Weight
Manufacture
2 kg
5kg
920mm
+/-0.03mm
CS8c
VAL3
52.2kg
Stäubli Robotics
EX3DV4
b)E-Field Probe
Model
Construction
Frequency
Directivity
Dynamic Range
Dimensions
Application
Manufacture
Symmetrical design with triangular core
Built-in shielding against static charges
PEEK enclosure material
(resistant to organic solvents, e.g., glycol ether)
10 MHz to > 6 GHz Linearity: ± 0.2 dB (30 MHz to 6 GHz)
+/-0.3 dB in HSL (rotation around probe axis)
+/-0.5 dB in tissue material (rotation normal probe axis)
10uW/g to > 100 mW/g;Linearity
+/-0.2 dB(noise: typically < 1uW/g)
Overall length: 337 mm (Tip: 20 mm)
Tip diameter: 2.5mm (Body: 12 mm)
Typical distance from probe tip to dipole centers: 1 mm
Highprecision dosimetric measurement in any exposure scenario
(e.g., very strong gradient fields).Only probe which enables compliance
testing for frequencies up to 6GHz with precision of better 30%.
Schmid & Partner Engineering AG
EX3DV4 E-field Probe
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
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c)Data Acquisition Electronic (DAE4)
Features
Measurement Range
Input Offset voltage
Input Resistance
Input Bias Current
Battery Power
Dimension
Manufacture
Signal amplifier, multiplexer, A/D converter and control logic
Serial optical link for communication with DASY5 embedded system (fully remote
controlled)
Two step probe touch detector for mechanical surface detection and emergency robot stop
-100 to +300 mV (16 bit resolution and two range settings: 4mV, 400mV)
< 5 µV (with auto zero)
200 MΩ
< 50 fA
> 10 h of operation (with two 9.6 V NiMH accus)
60 x 60 x 68 mm
Schmid & Partner Engineering AG
d)Electro-Optic Converter (EOC)
Version
Description
Manufacture
EOC 61
for TX60 robot arm, including proximity sensor
Schmid & Partner Engineering AG
e)DASY5 Measurement server
Features
Dimensions (L x W x H)
Manufacture
Intel ULV Celeron 400MHz
128MB chip disk and 128MB RAM
16 Bit A/D converter for surface detection system
Vacuum Fluorescent Display
Robot Interface
Serial link to DAE (with watchdog supervision)
Door contact port (Possibility to connect a light curtain)
Emergency stop port (to connect the remote control)
Signal lamps port
Light beam port
Three Ethernet connection ports
Two USB 2.0 Ports
Two serial links
Expansion port for future applications
440 x 241 x 89 mm
Schmid & Partner Engineering AG
f) Light Beam Switches
Version
LB5
Dimensions (L x H)
Thickness
Beam-length
Manufacture
110 x 80 mm
12 mm
80 mm
Schmid & Partner Engineering AG
Dosimetric Assessment System DASY5
SD 000 401A, SD 000 402A
DASY52, Version 52.6 (1)
Schmid & Partner Engineering AG
70 Kg
selectable
Stäubli Robotics
g)Software
Item
Type No.
Software version No.
Manufacture / Origin
h)Robot Control Unit
Weight
AC Input Voltage
Manufacturer
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
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i)Phantom and Device Holder
Phantom
Type
Description
Material
Shell Material
Thickness
Dimensions
Volume
Manufacture
SAM Twin Phantom V4.0
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.
Vinylester, glass fiber reinforced (VE-GF)
Fiberglass
2.0 +/-0.2 mm
Length: 1000 mm Width: 500 mm Height: adjustable feet
Approx. 25 liters
Schmid & Partner Engineering AG
Type
2mm Flat phantom ERI4.0
Description
Phantom for compliance testing of handheld and body-mounted wireless
devices in the frequency range of 30 MHz to 6 GHz. ELI4 is fully compatible with
the latest draft of the standard IEC 62209 Part II and all known tissue simulating
liquids. ELI4 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 supported by software version DASY4.5 and higher
and is compatible with all SPEAG dosimetric probes and dipoles.
Material
Shell Thickness
Filling Volume
Dimensions
Manufacture
Vinylester, glass fiber reinforced (VE-GF)
2.0 ± 0.2 mm (sagging: <1%)
approx. 30 liters
Major ellipse axis: 600 mm Minor axis: 400 mm
Schmid & Partner Engineering AG
Device Holder
In combination with the Twin SAM Phantom V4.0/V4.0c or ELI4, the Mounting Device enables the rotation of the
mounted transmitter device in spherical coordinates. Rotation point is the ear opening point. Transmitter devices can be
easily and accurately positioned according to IEC, IEEE, FCC or other specifications. The device holder can be locked
for positioning at different phantom sections (left head, right head, flat).
Material
POM
Laptio Extensions kit
Simple but effective and easy-to-use extension for Mounting Device that facilitates the testing of larger devices
according to IEC 62209-2 (e.g., laptops, cameras, etc.). It is 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, ELI4
Phantoms.
Material
POM, Acrylic glass, Foam
Urethane
For this measurement, the urethane foam was used as device holder.
UL Japan, Inc.
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j)Simulated Tissues (Liquid)
The following tissue formulations are provided for reference only as some of the parameters have not been thoroughly
verified. The composition of ingredients may be modified accordingly to achieve the desired target tissue parameters
required for required for routine SAR evaluation.
Tissue Type
Water
Sugar
Cellulose
Salt (NaCl)
Preventol
450
Head
Body
38.91
46.21
51.17
56.93
0.18
0.25
2.34
3.79
0.08
0.12
900
Head
Body
40.29
50.75
57.90
48.21
0.24
0.00
1.38
0.94
0.18
0.10
Frequency (MHz)
1800
Head
Body
55.24
70.17
0.31
0.39
DGMBE
44.45
29.44
44.51
30.0
45.0
31.37
Dielectric Constant
Conductivity (S/m)
43.42
0.85
58.0
0.83
42.54
0.91
56.1
0.95
42.0
1.0
56.8
1.07
39.9
1.42
54.0
1.45
39.8
1.88
52.5
1.78
Mixture (%)
1950
Body
69.79
0.08
0.2
Head
55.41
Head
55.0
2450
Body
68.64
Note:DGMBE(Diethylenglycol-monobuthyl ether)
The simulated tissue (liquid) of 1800MHz was used for the test frequency of 1700MHz to 1800MHz.
Mixture (%)
Tissue Type
Water
Sugar
Cellulose
Salt (NaCl)
Preventol
DGMBE
Frequency(MHz)
650&750
1450
Head and Body
Head and Body
35-58%
52-75%
40-60%
<0.3%
0-6%
<1%
0.1-0.7%
25-48%
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Mixture (%)
Tissue Type
Water
Mineral Oil
Emulsifiers
Additives and salt
Frequency(MHz)
5800
Head
Body
64.0
78.0
18.0
11.0
15.0
9.0
3.0
2.0
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System Check Dipole SAR Calibration Certificate -Dipole 2450MHz(D2450V2,S/N:713)
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D2450V2 Calibration for Impedance and Return-loss
Equipment
Dipole Antenna
Schmid&Partner
Engineering AG
Tomohisa Nakagawa
Manufacture
Tested by
1. Test environment
Date
Ambient Temperature
August 12, 2017
23.0 deg.C
Model
D2450V2
Serial
713
Relative humidity
64%RH
2. Equipment used
Control No.
Instrument
MOS-37
MPF-03
Digital thermometer
2mm Oval Flat Phantom
MMSL2450
Tissue simulation liquid
(Body)
LKM electronic
Schmid&Partner
Engineering AG
Schmid&Partner
Engineering AG
MHSL2450
Tissue simulation liquid
(Head)
Schmid&Partner
Engineering AG
HSL2450V2
Network Analyzer
Calibration Kit
Dipole Antenna
KEYSIGHT
KEYSIGHT
Schmid&Partner
Engineering AG
E5071C
85032F
D2450V2
EST-63
EST-64
MDA-07
Manufacturer
Model No
Serial No
Test Item
DTM3000
QDOVA001BB
1203
SAR
SAR
MSL2450V2
SL AA 245 BA SAR*Daily
Check Target
Value ±5%
SL AAH 245
SAR*Daily
BA
Check Target
Value ±5%
MY46523746
SAR
MY53200995
SAR
713
SAR
Calibration Date *
Interval(month)
2017/07/26 * 12
2017/05/29 * 12
Pre Check
Pre Check
2017/02/03 * 12
2017/02/02 * 12
2016/09/13 * 12
3. Test Result
Head
Head
Deviation
Deviation
Impeadance,Transformed to feed point cal day
(real part) [Ω] (img part) [jΩ] (real part) [Ω] (img part) [jΩ] Tolerance
Calibration (SPEAG)
2016/9/13
53.00
2.30 Calibration(ULJ)
2017/9/12
52.38
3.79
-0.62
1.49 +/-5Ω+/-5jΩ
Return loss
Calibration (SPEAG)
Calibration(ULJ)
Head
cal day
[dB]
2016/9/13
2017/9/12
Deviation
Tolerance
[dB]
[+/-dB]
-28.80 -25.08
3.72
Result
5.76 Complied
Body
Body
Deviation
Deviation
Impeadance,Transformed to feed point cal day
(real part) [Ω] (img part) [jΩ] (real part) [Ω] (img part) [jΩ] Tolerance
Calibration (SPEAG)
2016/9/13
49.60
3.70 Calibration(ULJ)
2017/9/12
46.483
7.6901
-3.12
3.99 +/-5Ω+/-5jΩ
Return loss
Calibration (SPEAG)
Calibration(ULJ)
Body
cal day
[dB]
2016/9/13
2017/9/12
Deviation
Tolerance
[dB]
[+/-dB]
-28.50 -23.306
5.19
*Tolerance : According to the KDB865664D01
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Result
Complied
Result
5.7 Complied
Result
Complied
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Dosimetric E-Field Probe Calibration Certificate (EX3DV4, S/N: 3825)
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Dosimetric E-Field Probe Calibration Certificate (EX3DV4, S/N: 3922)
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
98 of 142
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
99 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
100 of 142
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Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
101 of 142
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
102 of 142
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
103 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
104 of 142
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Page
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
105 of 142
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Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
106 of 142
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
107 of 142
W2Z-02100005
April 9, 2018
Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
108 of 142
W2Z-02100005
April 9, 2018
Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
109 of 142
W2Z-02100005
April 9, 2018
Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
110 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
111 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
112 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
113 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
114 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
115 of 142
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
116 of 142
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Test report No.
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FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
117 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
118 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
119 of 142
W2Z-02100005
April 9, 2018
Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
120 of 142
W2Z-02100005
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
121 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
122 of 142
W2Z-02100005
April 9, 2018
Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
123 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
124 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
125 of 142
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Test report No.
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
126 of 142
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
127 of 142
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
128 of 142
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
129 of 142
W2Z-02100005
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
130 of 142
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
131 of 142
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
132 of 142
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Test report No.
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Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
133 of 142
W2Z-02100005
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Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
134 of 142
W2Z-02100005
April 9, 2018
Test report No.
Page
FCC ID
Issued date
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
12105528H-A
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System check uncertainty
The uncertainty budget has been determined for the DASY5 measurement system according to the SPEAG documents
and is given in the following Table.
Repeatability Budget for System Check
<0.3 – 3GHz range Body>
Error Description
Measurement System
Probe calibration
Axial isotropy of
the probe
Spherical isotropy of
the probe
Boundary effects
Probe linearity
Detection limit
Modulation response
Readout electronics
Response time
Integration time
RF ambient Noise
RF ambient Reflections
Probe Positioner
Probe positioning
Max.SAR Eval.
Test Sample Related
Deviation of wxp.dipole
Dipole Axis to
Liquid Distance
Input power and
SAR drift meas.
Phantom and Setup
Phantom uncertainty
Probability
distribution
divisor
(ci)
1g
± 1.8
Normal
± 1.8
∞
± 0.0
Rectangular
√3
± 0.0
∞
± 0.0
Rectangular
√3
± 0.0
∞
±
±
±
±
±
±
±
±
±
±
±
±
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.4
2.9
0.0
Rectangular
Rectangular
Rectangular
Rectangular
Normal
Rectangular
Rectangular
Rectangular
Rectangular
Rectangular
Rectangular
Rectangular
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
√3
±
±
±
±
±
±
±
±
±
±
±
±
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.2
1.7
0.0
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
∞
± 0.0
Rectangular
√3
± 0.0
∞
± 2.0
Rectangular
√3
± 1.2
∞
± 3.4
Rectangular
√3
± 2.0
∞
Uncertainty
value ± %
Standard
(1g)
vi
or
veff
± 4.0
Rectangular
√3
± 2.3
∞
Algorithm for
correcting SAR
for deviations
in permittivity
and conductivity
± 1.9
Rectangular
√3
± 1.1
∞
Liquid conductivity
(meas.)
± 5.0
Normal
0.78
+ 3.9
∞
± 5.0
Normal
0.26
- 1.3
∞
± 1.7
Rectangular
√3
0.78
± 0.8
∞
± 0.3
Rectangular
√3
0.23
± 0.0
∞
Liquid permittivity
(meas.)
Liquid conductivity
- temp.unc
(below 2deg.C.)
Liquid permittivity
- temp.unc
(below 2deg.C.)
Combined Standard Uncertainty
Expanded Uncertainty (k=2)
UL Japan, Inc.
Ise EMC Lab.
4383-326 Asama-cho, Ise-shi, Mie-ken 516-0021 JAPAN
Telephone: +81 596 24 8999
Facsimile: +81 596 24 8124
± 5.945
± 11.9
Download: 02100005 Communication module RF Exposure Info 03 FCC SAR Report Fuji Film Corporation
Mirror Download [FCC.gov]02100005 Communication module RF Exposure Info 03 FCC SAR Report Fuji Film Corporation
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Document Description03 FCC SAR Report
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Date Submitted2018-04-12 00:00:00
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