LB1DR Communication Module Test Report 03 FCC SAR Report_JB-Z0321-A Murata Manufacturing Co., Ltd.

Murata Manufacturing Co., Ltd. Communication Module

FCC ID Filing: VPYLB1DR
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Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 1 of 58
SAR TEST REPORT
Project No.
Client
Address
Type of Equipment
Model No.
FCC-ID
Regulation Applied
JB-Z0321-A
Murata Manufacturing Co., Ltd.
10-1 Higashikotari 1-chome, Nagaokakyo-shi, Kyoto 617-8555 Japan
Communication Module
Type1DR (* installed in Digital Camera 1DR011)
VPYLB1DR
FCC 47 CFR 2.1093 (Class II Permissive Change)
SAR Limits
Exposure
Characteristics
General Public Exposure
The Highest Reported SAR :
RF Exposure
Conditions
Body-Worn
Spatial Peak SAR (Head and Trunk)
averaged over any 1 g of tissue
1.6 W/kg
Equipment Class
DTS
DTS
Wi-Fi 2.4 GHz
Bluetooth Low Energy
0.947 W/kg
N/A
Test Result
Complied
Sample Receipt
Testing
Reported
November 23, 2016
November 26, 2016 and June 23, 2017
June 27, 2017
July 26, 2017
Note(s)
(for conducted power measurements)
(for SAR measurement)
Reported by :
Approved Signatory :
Shinichi Suzuki
Technical Manager
EMC/ RF Test Laboratory Main Lab.
Design Technology Division
Sony Global Manufacturing & Operations Corporation
Teruki Kurihara
Technical Manager
EMC/ RF Test Laboratory Main Lab.
Design Technology Division
Sony Global Manufacturing & Operations Corporation
Notice
* These test results relate only to the items (combination equipment, test configuration, operation condition etc.) tested.
* This report shall not be reproduced except in full, without written approval of the laboratory.
* This report must not be used by the client to claim product endorsement by A2LA or any agency of the U.S. Government.
* All test results are traceable to the national and / or international standards.
* The testing in which “Non-accreditation” is displayed is outside the accreditation scopes
in Sony Global Manufacturing & Operations Corporation EMC/ RF Test Laboratory.
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 2 of 58
REVISION HISTORY
Project No.
JB-Z0321
JB-Z0321-A
Revision
Original
Page
24
Description
Added the note on Wi-Fi 2.4 GHz Low Power
Mode in the table of Wireless Technologies.
Corrected the note (*4) on channels tested for
the conducted power measurements.
Issued date
July 7, 2017
July 26, 2017
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 3 of 58
TABLE OF CONTENTS
1.
General Information ................................................................................................................................. 4
1.1. Description of Device Under Test (DUT) ............................................................................................. 4
1.2. Antenna Placement ................................................................................................................................ 4
1.3. Simultaneous Transmission Conditions.............................................................................................. 5
1.4. Nominal and Maximum Possible Power (Maximum Tune-up Tolerance Limit) .......................... 5
1.5. RF Exposure Conditions ........................................................................................................................ 5
1.6. RF Exposure Limits................................................................................................................................ 5
1.7. SAR Test Exclusion ................................................................................................................................ 6
1.8. Test Specification, Methods and Procedures....................................................................................... 7
1.9. Test Facilities and Accreditation .......................................................................................................... 8
2.
Test Set-up................................................................................................................................................. 9
2.1. Test Equipment and Measurement Software Lists ........................................................................... 9
2.2. Measurement System Description ..................................................................................................... 11
2.3. Measurement System Main Components ......................................................................................... 12
2.4. Tissue Simulating Liquids................................................................................................................... 15
2.5. SAR Measurement ............................................................................................................................... 16
2.6. Measurement Uncertainty .................................................................................................................. 17
2.7. Dielectric Parameter Measurement of Tissue Simulating Liquids ............................................... 20
2.8. System Check Measurement .............................................................................................................. 22
3.
Conducted Power Measurements .......................................................................................................... 24
3.1. Conducted Power Measurement Results .......................................................................................... 24
3.2. Comparison of Conducted Power with Original Radio Test Report .............................................. 25
4.
SAR Measurements ................................................................................................................................ 26
4.1. SAR Measurement Results ................................................................................................................. 28
4.2. SAR Measurement Variability............................................................................................................ 28
Appendix A.
Plots of SAR Measurement................................................................................................. 29
Appendix B.
Plots of System Check ......................................................................................................... 31
Appendix C.
Calibration Certificate ........................................................................................................ 33
Appendix D.
Photographs......................................................................................................................... 54
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 4 of 58
1. General Information
1.1.
Description of Device Under Test (DUT)
DUT and Host Platform Descriptions
Type of Equipment
Model No.
FCC-ID
Test Sample Condition
Serial No.
Rating
Head/Body-Worn Accessories
(supplied with the device)
Device Dimension (W x H x D)
Device Category
Exposure Category
Wireless Technologies
Wireless
Frequency
Technologies
Bands
Wi-Fi
2.4 GHz
Bluetooth
Note(s):
2.4 GHz
DUT
Communication Module
Digital Camera
Type1DR
1DR011
VPYLB1DR
Prototype
Prototype
Pre-production
Pre-production
Mass-production
Mass-production
* Not for sale: The sample is equivalent to mass-production items.
* No modification by the test lab.
204
0000019
DC 3.2 V (VBAT)
Li-ion Battery
DC 1.8 V (VDDXO)
DC 3.7 V/ 700 mAh
DC 1.8 or 3.3 V (VIO)
* Supplied from the host.
Not user accessible.
n/a
n/a
7.7 mm x 7.9 mm x 1.1 mm
See Appendix D
Portable
General population/ Uncontrolled environment
Operating Mode
802.11b
802.11g
802.11n (HT20)
Version 4.1 (LE)
Power Setting Mode
High Power Mode
n/a
The DUT installed in this host does not support the Wi-Fi 2.4 GHz Low Power Mode, Wi-Fi 5 GHz, and Bluetooth Classic (BR/EDR) operations.
Radio Specification
Original Approval
Antenna Type
Antenna Gain
Note(s):
Host Platform
*The DUT is installed in this host.
Monopole antenna
+ 0.91 dBi
Class II Permissive Change
*The DUT is installed in this host.
Monopole antenna
- 6.40 dBi
The antenna is of the same type and lower gain than in the original approval.
1.2.
Antenna Placement
Antenna
Front
Wi-Fi/Bluetooth
3.9
* Please refer to Appendix D for more details.
Minimum Distance from Edges or Sides of Host Platform (mm)
Back
Left
Right
Top
Bottom
25.6
9.55
43.45
12.0
16.5
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
1.3.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 5 of 58
Simultaneous Transmission Conditions
Wi-Fi 2.4 GHz cannot transmit simultaneously with Bluetooth.
1.4.
Nominal and Maximum Possible Power (Maximum Tune-up Tolerance Limit)
Wireless
Technologies
Mode
802.11b
802.11g
Frequency
Band (MHz)
HighLower
er
2412
2462
2412
2462
Channel
All
2 to 10
11
Wi-Fi
802.11n
(HT20)
Bluetooth
1.5.
2402
2462
2 to 10
2480
11
All
All
All
6 to 48
Mbps
54 Mbps
All
All
MCS 0 to 2
MCS 3 to 6
MCS 7
All
Full Power (Burst Averaged)
Nominal
(dBm)
17.0
13.5
Tolerance
(dB)
+2.0
-2.0
+2.0
-2.0
Max. Tune-up
Limit (dBm)
19.0
15.5
17.0
+2.0
-2.0
19.0
16.0
13.5
13.5
17.0
16.0
15.0
13.5
7.0
+2.0
+2.0
+2.0
+2.0
+2.0
+2.0
+2.0
-2.8
-2.0
-2.0
-2.0
-2.0
-2.0
-2.0
-2.0
+2.5
18.0
15.5
15.5
19.0
18.0
17.0
15.5
9.5
RF Exposure Conditions
Wireless
Technologies
Wi-Fi
/Bluetooth
1.6.
BLE
2412
Data Rate
/MCS
RF
Exposure
Conditions
User-to-Host
Distance
(mm)
Body-Worn
Test Position
Front
Back
Left
Right
Top
Bottom
Host-to-Ant.
Distance
(mm)
3.9
25.6
9.55
43.45
12.0
16.5
SAR
Required
Note(s)
Yes
Yes
Yes
Yes
Yes
Yes
RF Exposure Limits
Human Exposure
Spatial Peak SAR (Head and Trunk)
averaged over any 1 g of tissue
Spatial Average SAR (Whole Body)
averaged over the whole body
Spatial Peak SAR (Extremities: Hands/Wrists/Feet/Ankles)
averaged over any 10 g of tissue
* The limit(s) applied in this report.
General Population/
Uncontrolled Exposure
Occupational/
Controlled Exposure
1.6 W/kg*
8 W/kg
0.08 W/kg
0.4 W/kg
4 W/kg
20 W/kg
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
1.7.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 6 of 58
SAR Test Exclusion
SAR test exclusion is applied according to KDB 447498 D01.
The 1-g SAR test exclusion thresholds for 100 MHz to 6 GHz at test separation distances ≤ 50 mm are determined by:
[(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)] ·
[√f(GHz)] ≤ 3.0 for 1-g SAR and ≤ 7.5 for 10-g extremity SAR, where:
* f(GHz) is the RF channel transmit frequency in GHz
* Power and distance are rounded to the nearest mW and mm before calculation
* The result is rounded to one decimal place for comparison
* When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR test exclusion
Body-Worn SAR (1-g SAR) Test Exclusion as per KDB 447498 D01
Freq. Band
Wi-Fi
2.4GHz
Bluetooth
Max. Possible
User-to- Host-to- User-to- Min. Test
Power
Freq.
Test
Exclusion
Host
Ant
Ant
Sep.
(MHz) Position Distance Distance Distance Distance
rounded Threshold
(dBm) (mW)
(mm)
(mm)
(mm)
(mm)
(mW)
2450
2450
2450
2450
2450
2450
2450
2450
2450
2450
2450
2450
Front
Back
Left
Right
Top
Bottom
Front
Back
Left
Right
Top
Bottom
3.9
25.6
9.55
43.45
12.0
16.5
3.9
25.6
9.55
43.45
12.0
16.5
3.9
25.6
9.55
43.45
12.00
16.50
3.9
25.6
9.55
43.45
12.00
16.50
26
10
43
12
17
26
10
43
12
17
19.0
19.0
19.0
19.0
19.0
19.0
9.5
9.5
9.5
9.5
9.5
9.5
79.4
79.4
79.4
79.4
79.4
79.4
8.9
8.9
8.9
8.9
8.9
8.9
79
79
79
79
79
79
24.7
4.8
12.4
2.9
10.3
7.3
2.8
0.5
1.4
0.3
1.2
0.8
SAR
Required
(> 3.0)
Yes
Yes
Yes
No
Yes
Yes
No
No
No
No
No
No
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
1.8.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 7 of 58
Test Specification, Methods and Procedures
Test Specification
FCC 47 CFR 2.1093
Radiofrequency radiation exposure evaluation: portable devices
Test Methods
IEEE Std 1528-2013
IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption
Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement
KDB 248227 D01
KDB 447498 D01
KDB 447498 D02
KDB 615223 D01
KDB 616217 D04
KDB 643646 D01
KDB 648474 D03
KDB 648474 D04
KDB 865664 D01
KDB 941225 D01
KDB 941225 D05
KDB 941225 D06
KDB 941225 D07
v02r02
v06
v02r01
v01r01
v01r02
v01r03
v01r04
v01r03
v01r04
v03r01
v02r05
v02r01
v01r02
Techniques
SAR Guidance for IEEE 802.11 (Wi-Fi) Transmitters
Mobile and Portable Devices RF Exposure Procedures and Equipment Authorization Policies
SAR Measurement Procedures for USB Dongle Transmitters
802.16e/WiMax SAR Measurement Guidance
SAR Evaluation Considerations for Laptop, Notebook, Netbook and Tablet Computers
SAR Test Reduction Considerations for Occupational PTT Radios
Evaluation and Approval Considerations for Handsets with Specific Wireless Charging
Battery Covers
SAR Evaluation Considerations for Wireless Handsets
SAR Measurement Requirements for 100 MHz to 6 GHz (Section 3.5)
3G SAR Measurement Procedures
SAR Evaluation Considerations for LTE Devices
SAR Evaluation Procedures for Portable Devices with Wireless Router Capabilities
SAR Evaluation Procedures for UMPC Mini-Tablet Devices
Test Procedures
The SAR tests were performed according to the procedures of
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory,
the Document No. NV3-2 and NV3-16, available upon request.
No deviation from the procedures
Deviation from the procedures
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 8 of 58
References
[1]
ICNIRP. Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz). Health
Physics 74(4): 494-522, 1998.
[2]
American National Standards Institute (ANSI), "Safety Levels with Respect to Human Exposure to Radio Frequency
Electromagnetic Fields, 3 kHz to 300 GHz," ANSI/IEEE C95.1-1992.
[3]
Health Canada, "Limits of Human Exposure to Radiofrequency Electromagnetic Energy in the Frequency Range from 3 kHz to
300 GHz," Safety Code 6 (2009).
[4]
European Council Recommendation 1999/519/EC of 12 July 1999 on the limitation of exposure of the general public to
electromagnetic fields (0 Hz to 300 GHz) (Official Journal L 199 of 30 July 1999).
[5]
[6]
REDCA Technical Guidance Note 20 (TGN 20), SAR Testing and Assessment Guidance, Version 3.0, June 2016.
Australian Communications and Media Authority (ACMA),Radiocommunications (Electromagnetic Radiation - Human
[7]
[8]
[9]
[10]
[11]
[12]
[13]
1.9.
Exposure) Standard 2014.
Schmid & Partner Engineering AG (SPEAG), DASY52 System Handbook, April 2014.
Schmid & Partner Engineering AG (SPEAG), Safety Data Sheet, Doc No 772-SLAAx0yy-J, June 14, 2013.
Schmid & Partner Engineering AG (SPEAG), Safety Data Sheet, Doc No 772-SLAAx1yy-I, October 18, 2013.
Schmid & Partner Engineering AG (SPEAG), Safety Data Sheet, Doc No 772-SLAAx6yy-H, September 26, 2013.
Schmid & Partner Engineering AG (SPEAG), Material Safety Data Sheet, Doc No 772-SLAAH502A-D, August 9, 2013.
Schmid & Partner Engineering AG (SPEAG), Material Safety Data Sheet, Doc No 772-SLAAx4yy-J, August 9, 2013.
Schmid & Partner Engineering AG (SPEAG), Material Safety Data Sheet, Doc No 772-SLAAHxU16B-C, June 9, 2015.
Test Facilities and Accreditation
Test Facilities
Test Facility Name
Address
Shielded Room Used
A2LA Accreditation
Certificate No.
Expiration
: Sony Global Manufacturing & Operations Corporation
EMC/RF Test Laboratory, Main Lab.
: Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
4th Site Shielded Room 2
4th Site Shielded Room 3
: 3203.01
: October 31, 2017
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 9 of 58
2. Test Set-up
2.1.
Used
Test Equipment and Measurement Software Lists
Table 2-1
Test Equipment List
Control
No.
W128
Robot
TX60 L
F14/5VR2B1/A/01
Staubli
Cal.
Int.
N/A
W124
Robot
RX60B L
F04/5Z71A1/A/03
Staubli
N/A
N/A *1
WA02
E-Field Probe
EX3DV4
3921
SPEAG
1Y
16.10.25
WA52
EX3DV4
7452
SPEAG
1Y
17.03.31
DAE4
482
SPEAG
1Y
16.08.09
DAE4
610
SPEAG
1Y
17.01.16
W081
E-Field Probe
Data Acquisition
Electronics
Data Acquisition
Electronics
Twin SAM Phantom
Twin SAM
TP-1441
SPEAG
N/A
N/A *1
W082
Twin SAM Phantom
Twin SAM
TP-1325
SPEAG
N/A
N/A *1
W126
Twin SAM Phantom
Twin SAM
TP-1851
SPEAG
N/A
N/A *1
W127
Twin SAM Phantom
Twin SAM
TP-1852
SPEAG
N/A
N/A *1
W119
ELI Phantom
ELI V5.0
1259
SPEAG
N/A
WA26
System Validation Dipole
D2450V2
936
SPEAG
1Y
WA55
System Validation Dipole
D2450V2
894
SPEAG
1Y
WA28
System Validation Dipole
D5GHzV2
1183
SPEAG
1Y
W121
Vector Reflectometer
DAKS_VNA
R140
0111013
Copper Mountain
Technologies
N/A *1
Under
calibration
2016.10.18
Under
calibration
1Y
WA29
Dielectric Probe
DAKS-3.5
1034
SPEAG
1Y
WA44
Dielectric Probe
DAKS-3.5
1058
SPEAG
1Y
Under
calibration
17.05.10
W009
Signal Generator
US41461247
Agilent
1Y
17.03.02
W122
Power Amp
B40550
R&K
N/A
N/A *1
W104
Power Sensor
E4438C
CGA020M60
2-2633R
U2021XA
MY54040006
Agilent
1Y
16.12.27
W105
Power Sensor
U2021XA
MY54080005
Agilent
1Y
16.12.27
W120
Directional Coupler
4226-20
narda
N/A
N/A *1
W117
Attenuator
8493B 3 dB
MY39260857
Agilent
N/A
N/A *1
W118
Attenuator
932968
16.08.01
RF Cable
N/A
N/A *1
WC18
RF Cable
N/A
N/A *1
WC19
RF Cable
N/A
N/A *1
WC20
RF Cable
N/A
N/A *1
WC21
RF Cable
N/A
N/A *1
WC22
RF Cable
Hirose
HUBER+SUHN
ER
HUBER+SUHN
ER
HUBER+SUHN
ER
HUBER+SUHN
ER
HUBER+SUHN
ER
HUBER+SUHN
ER
1Y
WC17
AT-110 10 dB
SUCOFLEX
104
SUCOFLEX
104PE
SUCOFLEX
104
SUCOFLEX
104
SUCOFLEX
104
SUCOFLEX
104
N/A
N/A *1
W095
W096
Equipment Description
Model No.
Serial No.
253269 /4
MY1592/4
211789/4
194851/4
503095/6
503094/6
Manufacturer
Last Cal.
Note(s)
N/A *1
17.06.02
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Used
Model No.: Type1DR
Table 2-1
Issued: July 26, 2017
Test Equipment List (continued)
Page 10 of 58
Control
No.
M746
Thermometer
CTH-201
001
SANSYO
Cal.
Int.
1Y
M748
Thermometer
CTH-201
003
SANSYO
1Y
W112
Water Thermometer
735-1
02736130
testo
1Y
W113
Water Thermometer
735-1
02788580
testo
1Y
16.08.02
Under
calibration
17.06.14
W114
Water Thermometer
735-1
02788582
testo
1Y
16.08.03
W115
Water Thermometer
735-1
02788585
testo
1Y
16.08.03
W116
Water Thermometer
735-1
02788596
testo
1Y
17.06.12
Equipment Description
Model No.
Note(s):
*1 In-house verification is conducted periodically.
Used
FCC ID: VPYLB1DR
Table 2-2
Serial No.
Manufacturer
Last Cal.
Note(s)
16.08.02
Measurement Software List
Control
No.
SW-401
SAR measurement software
DASY52
52.8.8.1222
SPEAG
SW-402
SAR post-processing software
SEMCAD X
14.6.10 (7331)
SPEAG
Software Description
Model No.
Ver.
Manufacturer
SW-403
Dielectric measurement software
DAK
2.4.0.638
SPEAG
SW-404
SAR measurement software
DASY52
52.8.8.1222
SPEAG
SW-405
SAR post-processing software
SEMCAD X
14.6.10 (7331)
SPEAG
SW-406
SAR measurement spreadsheet
1.00
Main Lab.
SW-314
Power measurement software
N1918A
R03.09.00
Agilent
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
2.2.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 11 of 58
Measurement System Description
The DASY5 system for performing compliance tests consists of the following items:
Shielded Room (excluding PC)
Door
Contacts
Remote
Control
Signal
Lamps
Light Beam
Box
Teach Pendant
Electro-Optical
Measurement
Converter (EOC)
Server
(Opt. Link)
DAE
E-field Probe
Robot
Robot Controller
PC
Phantom
TSL
DUT
Device
Holder












Figure 2-1
Measurement System Description
A standard high precision 6-axis robot (Staubli TX/RX family) with controller, teach pendant and software.
An arm extension for accommodating the data acquisition electronics (DAE).
An isotropic field probe optimized and calibrated for the targeted measurement.
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 movement 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 phantoms (the Twin SAM and/or ELI phantoms) enabling the testing of handheld (left-hand and right-hand)
and/or body-mounted usage.
The device holders for handheld mobile phones and/or larger devices (e.g., laptops, cameras, etc.).
Tissue simulating liquid (TSL) mixed according to the given recipes.
System Validation Dipole Kits allowing to validate the proper functioning of the system.
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
2.3.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 12 of 58
Measurement System Main Components
Robot (Positioner)
Manufacturer
Model No.
Number of Axis
Reach at Wrist
Repeatability
Nominal Load Capacity
Maximum Load Capacity
Control Unit
Weight
E-Field Probe
Manufacturer
Model No.
Construction
Frequency
Directivity
Dynamic Range
Dimensions
Data Acquisition Electronics (DAE)
Manufacturer
Model No.
Construction
Measurement Range
Input Offset Voltage
Input Resistance
Input Bias Current
Battery Power
Dimensions (L x W x H)
Staubli SA
TX60L
920 mm
+/- 0.03 mm
2 kg
5 kg
CS8c
52.2 kg
Shielded Room 2
Shielded Room 3
RX60BL
865 mm
+/- 0.033 mm
1.5 kg
2.5 kg
CS7m
45 kg
Schmid & Partner Engineering AG (SPEAG)
EX3DV4
Symmetrical design with triangular core
Built-in shielding against static charges
PEEK enclosure material (resistant to organic solvents, e.g., DGBE)
10 MHz to > 6 GHz
Linearity: ± 0.2 dB (30 MHz to 6 GHz)
± 0.3 dB in TSL (rotation around probe axis)
± 0.5 dB in TSL (rotation normal to probe axis)
10 µW/g to > 100 mW/g
Linearity: ± 0.2 dB (noise: typically < 1 µW/g)
Overall length: 337 mm (Tip length: 20 mm)
Tip diameter: 2.5 mm (Body diameter: 12 mm)
Typical distance from probe tip to dipole centers: 1 mm
Schmid & Partner Engineering AG (SPEAG)
DAE4
Signal amplifier, multiplexer, A/D converter, and control logic
Serial optical link for communication with DASY4/5 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: 4 mV, 400 mV)
< 5 μV (with auto zero)
200 MΩ
< 50 fA
> 10 hours of operation (with two 9.6 V NiMH accus)
60 x 60 x 68 mm
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
DASY5 Measurement Server
Manufacturer
Model No.
CPU
Chip-Disk
RAM
Construction
I/O Interface
Dimensions (L x W x H)
Phantoms (Twin SAM Phantom)
Manufacturer
Model No.
Description
Material
Liquid Compatibility
Shell Thickness
Dimensions
Filling Volume
Wooden Support
Phantoms (ELI Phantom)
Manufacturer
Model No.
Description
Material
Liquid Compatibility
Shell Thickness
Dimensions
Filling Volume
Wooden Support
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 13 of 58
Schmid & Partner Engineering AG (SPEAG)
DASY5 Measurement Server
Intel ULV Celeron 400 MHz
128 MB
128 MB
16 Bit A/D converter for surface detection system
Vacuum Fluorescent Display
Robot Interface / Serial link to DAE (with watchdog supervision) / Door contact port /
Emergency stop port (to connect the remote control) / Signal lamps port / Light beam port /
Three Ethernet connection ports (for PC, Control Unit, and future applications) /
Two USB 2.0 ports (for installation and advanced troubleshooting by SPEAG) /
Two serial links (for future applications) / Expansion port (for future applications)
440 x 241 x 89 mm
Schmid & Partner Engineering AG (SPEAG)
Twin SAM
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.
Twin SAM V5.0 has the same shell geometry and is manufactured from the same material as
Twin SAM V4.0, but has reinforced top structure.
Vinylester, glass fiber reinforced (VE-GF)
Compatible with all SPEAG tissue simulating liquids (incl. DGBE type)
2 ± 0.2 mm (6 ± 0.2 mm at ear point)
Length: 1000 mm
Width: 500 mm
Height: adjustable feet
Approx. 25 liters
SPEAG standard phantom table
Schmid & Partner Engineering AG (SPEAG)
ELI V5.0
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.
ELI V5.0 has the same shell geometry and is manufactured from the same material as ELI4,
but has reinforced top structure.
Vinylester, glass fiber reinforced (VE-GF)
Compatible with all SPEAG tissue simulating liquids (incl. DGBE type)
2.0 ± 0.2 mm (bottom plate)
Major axis: 600 mm
Minor axis: 400 mm
Approx. 30 liters
SPEAG standard phantom table
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 14 of 58
Device Holder (Mounting Device for Hand-Held Transmitters)
Manufacturer
Model No.
Description
Material
Schmid & Partner Engineering AG (SPEAG)
MD4HHTV5
In combination with the Twin SAM or ELI Phantoms, the Mounting Device for Hand-Held
Transmitters enables rotation of the mounted transmitter device to specified spherical
coordinates. At the heads, the rotation axis is at the ear opening. Transmitter devices can be
easily and accurately positioned according to IEC 62209-1, IEEE 1528, FCC, or other
specifications. The device holder can be locked for positioning at different phantom sections (left
head, right head, flat).
Polyoxymethylene (POM)
Device Holder (Mounting Device Adaptor for Ultra Wide Transmitters)
Manufacturer
Model No.
Description
Material
Schmid & Partner Engineering AG (SPEAG)
MDA4WTV5
An upgrade kit to Mounting Device to enable easy mounting of wider devices like big
smart-phones, e-books, small tablets, etc. It holds devices with width up to 140mm.
Polyoxymethylene (POM)
Device Holder (Mounting Device Adaptor for Laptops)
Manufacturer
Model No.
Description
Material
System Validation Dipole Kits
Manufacturer
Model No.
Construction
Frequency
Return Loss
Power Capability
Accessories
Dimensions
Schmid & Partner Engineering AG (SPEAG)
MDA4LAP
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 Phantoms.
Polyoxymethylene (POM), PET-G, Foam
Schmid & Partner Engineering AG (SPEAG)
D-Series
Symmetrical dipole with l/4 balun
Enables measurement of feedpoint impedance with NWA
Matched for use near flat phantoms filled with tissue simulating solutions
2450, 5100 to 5800 MHz
> 20 dB at specified validation position
> 100 W (f < 1 GHz); > 40 W (f > 1 GHz)
Distance holder, tripod adaptor, tripod
Product
Dipole length
Overall height
D2450V2
52.0 mm
290.0 mm
D5GHzV2
20.6 mm
300.0 mm
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
2.4.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 15 of 58
Tissue Simulating Liquids
Recipes for tissue simulating liquids manufactured by SPEAG
Ingredients
(% by weight)
Used
Tissue Simulating
Liquids
Tissue Type
H2O
Non-ionic
detergents
NaCl
Preventol-D7
C8H18O3
Mineral Oil
Emulsifiers
Frequency (MHz)
1900 to 3800
2450
HSL
2450
V2
Head
HBBL
MBBL
1900-3800
1900-3800
V3
V3
Head
Body
50 – 73 %
HBBL
3500-5800
V5
Head
50 – 65 %
MBBL
3500-5800
V5
Body
60 – 80 %
–
25 – 50 %
–
–
< 1.0 %
–
25 – 48 %
–
–
0–2%
0.05 – 0.1 %
–
–
–
0 – 1.5 %
–
–
10 – 30 %
8 – 25 %
0 – 1.5 %
–
–
–
20 – 40 %
52 – 75 %
MSL
2450
V2
Body
3500 to 5800
For the SAR measurement, the phantom must be filled with tissue simulating liquid to a depth of at least 15 cm.
Figure 2-2
MBBL 1900-3800 V3
Photos: Liquid Depth (at the center of the flat phantom)
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
2.5.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 16 of 58
SAR Measurement
Step 1: Power Reference Measurement
Before an area scan and after the zoom scan, single point SAR measurements are performed
at defined locations to estimate the SAR measurement drift due to device output power variations.
Step 2: Area Scan
An area scan is performed according to the requirements in Table 2-3.
Step 3: Zoom Scan
A zoom scan is performed according to the requirements in Table 2-3.
Step 4: Power Drift Measurement
Before an area scan and after the zoom scan, single point SAR measurements are performed
at defined locations to estimate the SAR measurement drift due to device output power variations.
Table 2-3
Area Scan and Zoom Scan Parameters
DUT Transmit Frequency being Tested
≤ 3 GHz
> 3 GHz
Maximum distance from closest measurement point
(geometric center of probe sensors) to phantom surface
Maximum probe angle from probe axis to phantom
surface normal at the measurement location
Maximum area scan spatial resolution: ΔxArea, ΔyArea
Maximum zoom scan spatial resolution: ΔxZoom, ΔyZoom
Maximum zoom scan
spatial resolution,
normal to phantom
surface
Minimum zoom scan
volume
uniform grid: ΔzZoom(n)
graded
grid
x, y, z
ΔzZoom(1): between
1st two points closest
to phantom surface
ΔzZoom(n>1): between
subsequent points
5 ± 1 mm
½·δ·ln(2) ± 0.5 mm
30° ± 1°
20° ± 1°
≤ 2 GHz: ≤ 15 mm
3 – 4 GHz: ≤ 12 mm
2 – 3 GHz: ≤ 12 mm
4 – 6 GHz: ≤ 10 mm
When the x or y dimension of the test device, in the
measurement plane orientation, is smaller than the above, the
measurement resolution must be ≤ the corresponding x or y
dimension of the test device with at least one measurement
point on the test device.
≤ 2 GHz: ≤ 8 mm
3 – 4 GHz: ≤ 5 mm
2 – 3 GHz: ≤ 5 mm
4 – 6 GHz: ≤ 4 mm
3 – 4 GHz: ≤ 4 mm
≤ 5 mm
4 – 5 GHz: ≤ 3 mm
5 – 6 GHz: ≤ 2 mm
3 – 4 GHz: ≤ 3 mm
≤ 4 mm
4 – 5 GHz: ≤ 2.5 mm
5 – 6 GHz: ≤ 2 mm
≤ 1.5·ΔzZoom(n-1)
≥ 30 mm
Note: δ is the penetration depth of a plane-wave at normal incidence to the tissue medium.
3 – 4 GHz: ≥ 28 mm
4 – 5 GHz: ≥ 25 mm
5 – 6 GHz: ≥ 22 mm
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
2.6.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 17 of 58
Measurement Uncertainty
Table 2-4
DASY5 Uncertainty Budget for SAR Tests
According to IEEE Std 1528-2013 (0.3GHz to 3GHz range)
Uncertainty of Xi
Input quantity
Ci
Ciu(Xi)
Vi
Veff
Xi
Prob.
Dist.
Div.
1g
[-]
10g
[-]
1g
10g
Probe Calibration (k=1)
±6.0%
1.00
1.00
1.00
±6.0%
±6.0%
∞
Axial Isotropy
±4.7%
1.73
0.70
0.70
±1.9%
±1.9%
∞
Hemispherical Isotropy
±9.7%
1.73
0.70
0.70
±3.9%
±3.9%
∞
Boundary Effects
±1.0%
1.73
1.00
1.00
±0.6%
±0.6%
∞
Linearity
±4.7%
1.73
1.00
1.00
±2.7%
±2.7%
∞
System Detection Limits
±0.3%
1.73
1.00
1.00
±0.1%
±0.1%
∞
Modulation Response
±2.4%
1.73
1.00
1.00
±1.4%
±1.4%
∞
Readout Electronics
±0.3%
1.00
1.00
1.00
±0.3%
±0.3%
∞
Response Time
±0.8%
1.73
1.00
1.00
±0.5%
±0.5%
∞
Integration Time
±2.6%
1.73
1.00
1.00
±1.5%
±1.5%
∞
RF Ambient Noise
±0.2%
1.73
1.00
1.00
±0.1%
±0.1%
∞
RF Ambient Reflections
±1.3%
1.73
1.00
1.00
±0.7%
±0.7%
∞
Probe Positioner
±0.4%
1.73
1.00
1.00
±0.2%
±0.2%
∞
Probe Positioning
±2.9%
1.73
1.00
1.00
±1.7%
±1.7%
∞
Max. SAR Eval.
±2.0%
1.73
1.00
1.00
±1.2%
±1.2%
∞
Device Positioning
±1.8%
1.00
1.00
1.00
±1.8%
±1.8%
14
Device Holder
±3.6%
1.00
1.00
1.00
±3.6%
±3.6%
Power Drift
±5.0%
1.73
1.00
1.00
±2.9%
±2.9%
∞
Power Scaling
±0.0%
1.73
1.00
1.00
±0.0%
±0.0%
∞
Phantom Uncertainty
±7.2%
1.73
1.00
1.00
±4.2%
±4.2%
∞
SAR Correction
±1.9%
1.73
1.00
0.84
±1.1%
±0.9%
∞
Liquid Conductivity (mea.)
±2.5%
1.73
0.78
0.71
±1.1%
±1.0%
∞
Liquid Permittivity (mea.)
±2.5%
1.73
0.23
0.26
±0.3%
±0.4%
∞
Temp. Unc. - Conductivity
±3.4%
1.73
0.78
0.71
±1.5%
±1.4%
∞
Temp. Unc. - Permittivity
±0.4%
1.73
0.23
0.26
±0.1%
±0.1%
∞
±10.9%
±10.8%
±21.8%
±21.7%
Measurement System
Test Sample Related
Phantom and Setup
Combined Standard Uncertainty
Expanded Uncertainty (95% conf. interval)
k=2
409
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
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Model No.: Type1DR
Table 2-5
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 18 of 58
DASY5 Uncertainty Budget for SAR Tests
According to IEEE Std 1528-2013 (3GHz to 6GHz range)
Uncertainty of Xi
Input quantity
Ci
Ciu(Xi)
Vi
Veff
Div.
1g
[-]
10g
[-]
1g
10g
1.00
1.00
1.00
±6.6%
±6.6%
∞
±4.7%
1.73
0.70
0.70
±1.9%
±1.9%
∞
Hemispherical Isotropy
±9.7%
1.73
0.70
0.70
±3.9%
±3.9%
∞
Boundary Effects
±2.0%
1.73
1.00
1.00
±1.2%
±1.2%
∞
Linearity
±4.7%
1.73
1.00
1.00
±2.7%
±2.7%
∞
System Detection Limits
±0.3%
1.73
1.00
1.00
±0.1%
±0.1%
∞
Modulation Response
±2.4%
1.73
1.00
1.00
±1.4%
±1.4%
∞
Readout Electronics
±0.3%
1.00
1.00
1.00
±0.3%
±0.3%
∞
Response Time
±0.8%
1.73
1.00
1.00
±0.5%
±0.5%
∞
Integration Time
±2.6%
1.73
1.00
1.00
±1.5%
±1.5%
∞
RF Ambient Noise
±0.2%
1.73
1.00
1.00
±0.1%
±0.1%
∞
RF Ambient Reflections
±1.3%
1.73
1.00
1.00
±0.7%
±0.7%
∞
Probe Positioner
±0.8%
1.73
1.00
1.00
±0.5%
±0.5%
∞
Probe Positioning
±6.7%
1.73
1.00
1.00
±3.9%
±3.9%
∞
Max. SAR Eval.
±4.0%
1.73
1.00
1.00
±2.3%
±2.3%
∞
Device Positioning
±1.8%
1.00
1.00
1.00
±1.8%
±1.8%
14
Device Holder
±3.6%
1.00
1.00
1.00
±3.6%
±3.6%
Power Drift
±5.0%
1.73
1.00
1.00
±2.9%
±2.9%
∞
Power Scaling
±0.0%
1.73
1.00
1.00
±0.0%
±0.0%
∞
Phantom Uncertainty
±7.6%
1.73
1.00
1.00
±4.4%
±4.4%
∞
SAR Correction
±1.9%
1.73
1.00
0.84
±1.1%
±0.9%
∞
Liquid Conductivity (mea.)
±2.5%
1.73
0.78
0.71
±1.1%
±1.0%
∞
Liquid Permittivity (mea.)
±2.5%
1.73
0.23
0.26
±0.3%
±0.4%
∞
Temp. Unc. - Conductivity
±3.4%
1.73
0.78
0.71
±1.5%
±1.4%
∞
Temp. Unc. - Permittivity
±0.4%
1.73
0.23
0.26
±0.1%
±0.1%
∞
±12.0%
±12.0%
±24.1%
±24.0%
Xi
Prob.
Dist.
Probe Calibration (k=1)
±6.55%
Axial Isotropy
Measurement System
Test Sample Related
Phantom and Setup
Combined Standard Uncertainty
Expanded Uncertainty (95% conf. interval)
k=2
610
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Table 2-6
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 19 of 58
DASY5 Uncertainty Budget for SAR System Check
According to IEEE Std 1528-2013 (0.3GHz to 6GHz range)
Uncertainty of Xi
Input quantity
Xi
Prob.
Dist.
Probe Calibration (k=1)
±6.55%
Axial Isotropy
Ci
Ciu(Xi)
Vi
Veff
Div.
1g
[-]
10g
[-]
1g
10g
1.00
1.00
1.00
±6.6%
±6.6%
∞
±4.7%
1.73
0.70
0.70
±1.9%
±1.9%
∞
Hemispherical Isotropy
±9.7%
1.73
0.70
0.70
±3.9%
±3.9%
∞
Boundary Effects
±2.0%
1.73
1.00
1.00
±1.2%
±1.2%
∞
Linearity
±4.7%
1.73
1.00
1.00
±2.7%
±2.7%
∞
System Detection Limits
±0.3%
1.73
1.00
1.00
±0.1%
±0.1%
∞
Modulation Response
±0.0%
1.73
1.00
1.00
±0.0%
±0.0%
∞
Readout Electronics
±0.3%
1.00
1.00
1.00
±0.3%
±0.3%
∞
Response Time
±0.0%
1.73
1.00
1.00
±0.0%
±0.0%
∞
Integration Time
±0.0%
1.73
1.00
1.00
±0.0%
±0.0%
∞
RF Ambient Noise
±1.0%
1.73
1.00
1.00
±0.6%
±0.6%
∞
RF Ambient Reflections
±1.0%
1.73
1.00
1.00
±0.6%
±0.6%
∞
Probe Positioner
±0.8%
1.73
1.00
1.00
±0.5%
±0.5%
∞
Probe Positioning
±6.7%
1.73
1.00
1.00
±3.9%
±3.9%
∞
Max. SAR Eval.
±4.0%
1.73
1.00
1.00
±2.3%
±2.3%
∞
Deviation of exp. Dipole
±5.5%
1.73
1.00
1.00
±3.2%
±3.2%
∞
Dipole Axis to Liquid Dist.
±2.0%
1.73
1.00
1.00
±1.2%
±1.2%
∞
Inoput Power & SAR Drift
±3.4%
1.73
1.00
1.00
±2.0%
±2.0%
∞
Phantom Uncertainty
±7.6%
1.73
1.00
1.00
±4.4%
±4.4%
∞
SAR Correction
±1.9%
1.73
1.00
0.84
±1.1%
±0.9%
∞
Liquid Conductivity (mea.)
±2.5%
1.00
0.78
0.71
±2.0%
±1.8%
∞
Liquid Permittivity (mea.)
±2.5%
1.00
0.23
0.26
±0.6%
±0.7%
∞
Temp. Unc. - Conductivity
±3.4%
1.73
0.78
0.71
±1.5%
±1.4%
∞
Temp. Unc. - Permittivity
±0.4%
1.73
0.23
0.26
±0.1%
±0.1%
∞
±11.6%
±11.5%
±23.1%
±23.0%
Measurement System
Dipole Related
Phantom and Setup
Combined Standard Uncertainty
Expanded Uncertainty (95% conf. interval)
k=2
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2.7.
Model No.: Type1DR
FCC ID: VPYLB1DR
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Page 20 of 58
Dielectric Parameter Measurement of Tissue Simulating Liquids
The dielectric properties of the tissue simulating liquids used were verified within 24 hours before the SAR
measurement.
Vector
reflectometer
DAK software
Dielectric probe
* Probe shall be tilted
to reduce reflection.
USB cable
Probe stand
(a) Dielectric Parameter Measurement System
(b) Example Photo: Dielectric Parameter Measurement
Figure 2-3
Dielectric Parameter Measurement Set-up
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Page 21 of 58
*1 Target values are linearly interpolated between the values defined in KDB 865664 D01, when necessary.
*2 The deviation of measured values from target values must be within +/-5 %.
4th Site Shielded Room 2
TSL
Freq.
(MHz)
Target
*1
Meas.
52.19
Dev.
(%)
*2
-1.06
εr
σ (S/m)
52.75
1.91
1.98
3.66
2437
εr
σ (S/m)
52.72
52.12
-1.14
1.94
2.01
3.61
2462
εr
σ (S/m)
52.68
52.05
-1.20
1.97
2.04
3.55
2412
MBBL
1900-3800V3
Param.
Date
2017/06/27
Amb.
Rel.
Liquid
Temp. Hum. Temp.
(deg. C) (%RH) (deg. C)
24.5
60.0
Note(s)
23.8
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2.8.
Model No.: Type1DR
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Page 22 of 58
System Check Measurement
The system check was performed before each series of SAR measurements using the same probe calibration point
and tissue-equivalent medium.
Signal generator
Power amp.
3 dB
ATT
Dir.
coupler
50 Ω
term.
Power
sensor
RF cable
10 dB
ATT
Power sensor 1
Power
measurement
software
USB cable
(a) Set-up 1: System Validation Dipole Input Power Adjustment
Distance between system validation dipole
and liquid:
≦1 GHz; 15 mm ±0.2 mm
>1 GHz; 10 mm ±0.2 mm
DASY
measurement
system
Field probe
Flat phantom
System validation dipole
Dipole parallelism: ≦2 °
Liquid depth: ≧15 cm
Signal generator
Power amp.
3 dB
ATT
Dir.
coupler
Power measurement
software
Power
sensor
RF cable
Power
sensor
USB cable
(b) Set-up 2: System Check Measurement
Figure 2-4
System Check Measurement Set-up
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
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Page 23 of 58
Body TSL
(c) Photo: System Validation Dipole Placement
Figure 2-4
System Check Measurement Set-up (continued)
*1 The normalized values (1 W) were calculated by normalizing the measured values to 1-W forward input power.
*2 The target values (1 W) are defined in IEEE Std 1528 and/or the calibration certificate
of system validation dipoles used.
*3 The deviation of normalized values from target values must be within +/-10 %.
4th Site Shielded Room 2 (Body TSL)
System
Validation
Dipole
Freq.
(MHz)
D2450V2
2450
Param.
1-g SAR
10-g SAR
250
1 W1 WmWNorm. Target
Meas. (W/kg) (W/kg)
(W/kg)
*1
*2
13.70
54.80
50.80
6.38
25.52
24.10
Dev.
(%)
*3
7.87
5.89
Date
2017/06/27
Amb.
Rel.
Liquid
Temp. Hum. Temp.
(deg. C) (%RH) (deg. C)
24.5
60.0
Note(s)
23.8
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
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Project No: JB-Z0321-A
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Issued: July 26, 2017
Page 24 of 58
3. Conducted Power Measurements
3.1.
Conducted Power Measurement Results
Wi-Fi 2.4 GHz
Date
Amb. Temp. :
2017/06/23
22.0 deg. C
Measured by
Rel. hum.
IEEE 802.11b
Ch.
Freq.
(MHz)
Power
Setting
Data
Rate
(Mbps)
Step 1: Worst Date Rate Check
1.0
2.0
2412 Default
5.5
11.0
Step 2: Worst Channel Check
2412
2.0
2437 Tune-up
2.0
11
2462
2.0
Y. Kajihara
62.0 %RH
Meas.
Scaled
Burst
Frame
Averaged Average
Power
Power
(dBm)
(dBm)
*1
*2
Meas.
Frame
Averaged
Power
(dBm)
Max.
Duty
Cycle
(%)
Meas.
Duty
Cycle
(%)
15.96
16.03
15.76
15.83
100.00
100.00
100.00
100.00
99.65
99.55
99.42
99.06
15.98
16.05
15.79
15.87
17.72
17.97
17.86
100.00
100.00
100.00
99.55
99.55
99.55
17.74
17.99
17.88
Meas.
Frame
Averaged
Power
(dBm)
Max.
Duty
Cycle
(%)
Meas.
Duty
Cycle
(%)
IEEE 802.11g (*3)(*4)
Ch.
Freq.
(MHz)
Power
Setting
Data
Rate
(Mbps)
10
2417
2437
2457
Tune-up
6.0
6.0
6.0
17.34
17.45
17.37
100.00
100.00
100.00
97.39
97.39
97.39
Max.
Duty
Cycle
(%)
Meas.
Duty
Cycle
(%)
100.00
100.00
100.00
96.53
96.53
96.53
IEEE 802.11n (*3)(*4)
Ch.
Freq.
(MHz)
Power
Setting
MCS
Meas.
Frame
Averaged
Power
(dBm)
10
2417
2437
2457
Tune-up
17.27
17.38
17.36
Max.
Poss.
Power
(dBm)
Within
2 dB
of Max.
Poss.
Power
SAR
Tested
15.98
16. 05
15.79
15.87
19.0
19.0
19.0
19.0
17.74
17. 99
17.88
19.0
19.0
19.0
Yes
Yes
Yes
Yes
Yes
Yes
Worst Ch
Max.
Poss.
Power
(dBm)
Within
2 dB
of Max.
Poss.
Power
SAR
Tested
Note(s)
19.0
19.0
19.0
Yes
Yes
Yes
Max.
Poss.
Power
(dBm)
Within
2 dB
of Max.
Poss.
Power
SAR
Tested
19.0
19.0
19.0
Yes
Yes
Yes
Meas.
Scaled
Burst
Frame
Averaged Average
Power
Power
(dBm)
(dBm)
*1
*2
17.46
17.46
17.57
17. 57
17.49
17.49
Scaled
Meas.
Frame
Burst
Averaged Average
Power
Power
(dBm)
(dBm)
*2
*1
17.42
17.42
17.53
17. 53
17.51
17.51
Note(s)
Worst D/R
Worst Ch
Note(s)
Worst Ch
*1 Used for confirmation that the DUT’s output power is within +0/-2 dB of the maximum tune-up tolerance limits (max. poss. power), since the maximum
tune-up tolerance limits are defined as burst averaged values. The measured burst averaged power values were calculated by applying the power scaling
to 100 % duty factor ( = 10 * log (100 % / Measured duty cycle) ) to each measured frame averaged power value.
*2 Used for determination of the maximum conducted output power condition, since the source-based time-averaged output power (frame averaged power)
shall be used according to KDB 447498 D01. The scaled frame averaged power values were calculated by applying the power scaling for the maximum
duty factor ( = 10 * log (Maximum duty cycle / Measured duty cycle) ) to each measured frame averaged power value.
*3 SAR is not required for 802.11g/n channels when the highest reported SAR for DSSS (802.11b) is adjusted by the ratio of OFDM to DSSS specified
maximum output power and the adjusted SAR is ≤ 1.2 W/kg or 3 W/kg (1-g or 10-g respectively), according to KDB 248227 D01.
*4 Channels 2, 6, and 10 are measured since channels 1 and 11 require reduced output power, according to KDB 248227 D01.
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Project No: JB-Z0321-A
Bluetooth
Date
Amb. Temp.
Model No.: Type1DR
2016/11/26
24.5 deg. C
FCC ID: VPYLB1DR
Measured by
Rel. hum.
Bluetooth LE (*5)
Ch.
Freq.
(MHz)
Packet
Type
Meas.
Frame
Averaged
Power
(dBm)
19
39
2402
2440
2480
6.15
6.77
6.47
Max.
Duty
Cycle
(%)
Meas.
Duty
Cycle
(%)
71.00
71.00
71.00
63.52
63.52
63.52
Issued: July 26, 2017
Page 25 of 58
Y. Kajihara
51.0 %RH
Meas.
Scaled
Burst
Frame
Averaged Averaged
Power
Power
(dBm)
(dBm)
*1
*2
6.63
8.12
7. 25
8. 74
8.44
6.95
Max.
Poss.
Power
(dBm)
Within
2 dB
of Max.
Poss.
Power
SAR
Tested
9.5
9.5
9.5
Yes
Yes
Yes
Note(s)
Worst Ch
*1 Used for confirmation that the DUT’s output power is within +0/-2 dB of the maximum tune-up tolerance limits (max. poss. power), since the maximum
tune-up tolerance limits are defined as burst averaged values. The measured burst averaged power values were calculated by applying the power scaling
to 100 % duty factor ( = 10 * log (100 % / Measured duty cycle) ) to each measured frame averaged power value.
*2 Used for determination of the maximum conducted output power condition, since the source-based time-averaged output power (frame averaged power)
shall be used according to KDB 447498 D01. The scaled frame averaged power values were calculated by applying the power scaling for the maximum
duty factor ( = 10 * log (Maximum duty cycle / Measured duty cycle) ) to each measured frame averaged power value.
*5 SAR is not required for Bluetooth when SAR test exclusion is applied according to KDB 447498 D01.
3.2.
Comparison of Conducted Power with Original Radio Test Report
Wi-Fi 2.4 GHz
Original
(Radio)
Class II Permissive Change
(SAR)
Mode
Max. Conducted
Averaged Power
IEEE 802.11b
18.19 dBm
IEEE 802.11b
17.99 dBm
Deviation
Deviation
Radio Test Report No. 10622710S-C,
issued by UL Japan, Inc.
Burst averaged power
-0.20 dB
Bluetooth
Original
(Radio)
Class II Permissive Change
(SAR)
Note(s)
Mode
Max. Conducted
Averaged Power
Bluetooth LE
8.30 dBm
Bluetooth LE
8.74 dBm
Note(s)
Radio Test Report No. 10622710S-C,
issued by UL Japan, Inc.
Burst averaged power
+0.44 dB
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FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 26 of 58
4. SAR Measurements

According to KDB 865664 D01,
the maximum SAR values are determined by taking account of the following correction or scaling factors.
The maximum 1-g SAR and/or 10-g SAR values (reported SAR) are calculated by applying the ΔSAR positive correction for
deviations of the tissue-equivalent liquid and the power scaling for the maximum duty factor and maximum possible power levels
(maximum tune-up tolerance limit) to each measured 1-g SAR and/or 10-g SAR value:
Reported SAR (W/kg)
Measured SAR (W/kg) ∗ ΔSAR positive correction factor
∗ Duty cycle scaling factor ∗ Tune-up scaling factor
where;
ΔSAR positive correction factor
= (100 - ΔSAR*1) / 100
Duty cycle scaling factor
Max. possible duty cycle / Measured duty cycle used for the SAR measurement
Tune-up scaling factor
Max. possible power (mW) / Measured power used for the SAR measurement (mW)
*1
ΔSAR (%) = cε ∗ Δεr+ cσ ∗ Δσ

cε = -7.854 ∗ 10-4 f3 + 9.402 ∗ 10-3 f2 - 2.742 ∗ 10-2 f - 0.2026
cσ = 9.804 ∗ 10-3 f3 - 8.661 ∗ 10-2 f2 + 2.981 ∗ 10-2 f + 0.7829

cε = 3.456 ∗ 10-3 f3 - 3.531 ∗ 10-2 f2 + 7.675 ∗ 10-2 f - 0.1860
cσ = 4.479 ∗ 10-3 f3 - 1.586 ∗ 10-2 f2 - 0.1972 f + 0.7717
where;
cε
coefficient representing the sensitivity of SAR to permittivity
Δεr
percent change in permittivity
cσ
coefficient representing the sensitivity of SAR to conductivity
Δσ
percent change in conductivity
frequency in GHz
A negative ΔSAR would translate to a lower measured SAR value than what would be measured
if using dielectric properties equal to the target values.
A positive ΔSAR would translate to a higher measured SAR value than what would be measured
if using dielectric properties equal to the target values.
SAR correction shall not be made when the ΔSAR has a positive sign to provide a conservative SAR value.
The SAR is only corrected when ΔSAR has a negative sign.
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
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FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 27 of 58

SAR test reduction for Wi-Fi is applied according to KDB 248227 D01.
The initial test position procedures
An “initial test position” is applied to further reduce the number of SAR tests for devices operating in next to the ear, UMPC mini-tablet
or hotspot mode exposure configurations that require multiple test positions.
1)
When the reported SAR of the initial test position is ≤ 0.4 W/kg or 1 W/kg (1-g or 10-g respectively), further SAR measurement is
not required for the other (remaining) test positions in that exposure configuration and 802.11 transmission mode combinations
within the frequency band or aggregated band. SAR is also not required for that exposure configuration in the subsequent test
configuration(s).
2)
When the reported SAR of the initial test position is > 0.4 W/kg or 1 W/kg (1-g or 10-g respectively), SAR is repeated for the 802.11
transmission mode configuration tested in the initial test position using subsequent highest extrapolated or estimated 1-g SAR
conditions determined by area scans or next closest/smallest test separation distance and maximum RF coupling test positions
based on manufacturer justification, on the highest maximum output power channel, until the reported SAR is ≤ 0.8 W/kg or 2
W/kg (1-g or 10-g respectively) or all required test positions (left, right, touch, tilt or subsequent surfaces and edges) are tested.
3)
For all positions/configurations tested using the initial test position and subsequent test positions, when the reported SAR is
> 0.8 W/kg or 2 W/kg (1-g or 10-g respectively), SAR is measured for these test positions/configurations on the subsequent next
highest measured output power channel(s) until the reported SAR is ≤ 1.2 W/kg or 3 W/kg (1-g or 10-g respectively) or all required
channels are tested.
a)
Additional power measurements may be required for this step, which should be limited to those necessary for identifying the
subsequent highest output power channels.
The 802.11b DSSS procedures
SAR is measured for 2.4 GHz 802.11b DSSS using either a fixed test position or, when applicable, the initial test position procedure.
1)
When the reported SAR of the highest measured maximum output power channel for the exposure configuration is ≤ 0.8 W/kg or
2 W/kg (1-g or 10-g respectively), no further SAR testing is required for 802.11b DSSS in that exposure configuration.
2)
When the reported SAR is > 0.8 W/kg or 2 W/kg (1-g or 10-g respectively), SAR is required for that exposure configuration using
the next highest measured output power channel. When any reported SAR is > 1.2 W/kg or 3 W/kg (1-g or 10-g respectively),
SAR is required for the third channel; i.e., all channels require testing.
For 2.4 GHz 802.11g/n OFDM configurations
SAR is not required for the following 2.4 GHz OFDM conditions.
1)
When KDB Publication 447498 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 or 3 W/kg (1-g or 10-g respectively).
The Initial Test Configuration Procedures
An initial test configuration is determined for OFDM 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.
1)
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.
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
4.1.
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 28 of 58
SAR Measurement Results

Wi-Fi 2.4 GHz
Date
: 2017/6/27
Amb. Temp. : 24.5 deg. C
Mode
Ch.
Freq.
(MHz)
Pos.
Measured by
: Y. Kamiko
Rel. hum.
: 56.0 %RH
Max.
Max.
Meas.
Dis. Poss.
Duty
Power
(mm) Power
Cycle
(dBm)
(dBm)
(%)
Step 1: Worst Position Check
Front
Back
2437
802.11b
Left
Top
Bottom
Step 2: Worst Channel Check (for Step 1)
2412
802.11b
Front
11 2462
Meas.
Meas.
Reported Liquid
Duty
1-g SAR 1-g SAR Temp.
Cycle
(W/kg)
(W/kg) (deg. C)
(%)
19.00
19.00
19.00
19.00
19.00
17.99
17.99
17.99
17.99
17.99
100.00
100.00
100.00
100.00
100.00
99.55
99.55
99.55
99.55
99.55
0.662
0.146
0.085
0.052
0.056
0.839
0.185
0.108
0.065
0.071
23.9
23.8
23.9
23.8
23.8
19.00
19.00
17.74
17.88
100.00
100.00
99.55
99.55
0.617
0.728
0.828
0. 947
23.8
23.8
Plot
No.
*1 The burst averaged power values are used for power scaling since the maximum tune-up tolerance limits are defined as burst averaged values.
*2 Reported SAR (W/kg) = Measured SAR (W/kg) ∗ Duty cycle scaling factor ∗ Tune-up scaling factor
where;
Duty cycle scaling factor = Max. possible duty cycle (%) / Measured duty cycle used for the SAR measurement (%)
Tune-up scaling factor = Max. possible power (mW) / Measured power used for the SAR measurement (mW)
4.2.
SAR Measurement Variability
According to KDB 865664 D01, additional measurements are repeated after the completion of all measurements
requiring the same head or body tissue-equivalent medium in a frequency band. The test device should be returned to
ambient conditions (normal room temperature) with the battery fully charged before it is re-mounted on the device holder
for the repeated measurement(s) to minimize any unexpected variations in the repeated results.
1) Repeated measurement is not required when the original highest measured SAR is < 0.8 or 2 W/kg (1-g or 10-g respectively); steps 2)
through 4) do not apply.
2) When the original highest measured SAR is ≥ 0.8 or 2 W/kg (1-g or 10-g respectively), repeat that measurement once.
3) Perform a second repeated measurement only if the ratio of largest to smallest SAR for the original and first repeated measurements
is > 1.20 or when the original or repeated measurement is ≥ 1.45 or 3.6 W/kg (~ 10% from the 1-g or 10-g respective SAR limit).
4) Perform a third repeated measurement only if the original, first, or second repeated measurement is
≥ 1.5 or 3.75 W/kg (1-g or 10-g respectively) and the ratio of largest to smallest SAR for the original, first and second repeated
measurements is > 1.20.
Freq. Band
(MHz)
RF Exposure
Conditions
Position
Wi-Fi 2.4 GHz
Body-Worn
Front
Highest
Meas. SAR
(W/kg)
1-g SAR
0.728
Repeat
SAR
Repeated
Meas. SAR
(W/kg)
No
N/A
Ratio of
Largest
to Smallest
SAR
N/A
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 29 of 58
Appendix A. Plots of SAR Measurement
Please see the following page(s).
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Plot No. 1
Issued: July 26, 2017
Page 30 of 58
Date: 2017/06/27
Test Laboratory: Sony Global Manufacturing & Operations Corporation EMC/ RF Test Laboratory Main Lab. 4th Site Shielded Room 2
Wi-Fi 2.4 GHz (11ch)_Body-Worn_Front_0mm
DUT: Type1DR (installed in Digital Camera 1DR011)
Communication System: UID 0, Wi-Fi_802.11b_2Mbps (0); Frequency: 2462 MHz;
Medium parameters used: f = 2462 MHz; σ = 2.042 S/m; εr = 52.054; ρ = 1000 kg/m3
Phantom section: Flat Section
DASY Configuration:
•Probe: EX3DV4 - SN3921; ConvF(7.64, 7.64, 7.64); Calibrated: 2016/10/25;
•Sensor-Surface: 1.4mm (Mechanical Surface Detection), z = 1.0, 31.0
•Electronics: DAE4 Sn482; Calibrated: 2016/08/09
•Phantom: ELI v5.0 (20deg probe tilt); Type: QDOVA002AA; Serial: TP:1259
•DASY52 52.8.8(1222); SEMCAD X 14.6.10(7331)
Configuration/Wi-Fi 2.4 GHz (11ch)_Body-Worn_Front_0mm/
Area Scan (7x9x1): Measurement grid: dx=12mm, dy=12mm
Maximum value of SAR (measured) = 1.40 W/kg
Configuration/Wi-Fi 2.4 GHz (11ch)_Body-Worn_Front_0mm/
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 27.16 V/m; Power Drift = 0.07 dB
Peak SAR (extrapolated) = 2.27 W/kg
SAR(1 g) = 0.728 W/kg; SAR(10 g) = 0.231 W/kg (SAR corrected for target medium)
Maximum value of SAR (measured) = 1.48 W/kg
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 31 of 58
Appendix B. Plots of System Check
Please see the following page(s).
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 32 of 58
Date: 2017/06/27
Test Laboratory: Sony Global Manufacturing & Operations Corporation EMC/ RF Test Laboratory Main Lab. 4th Site Shielded Room 2
Validation_D2450_MSL
DUT: Dipole 2450 MHz; Type: D2450V2; Serial: 894
Communication System: UID 0, CW; Frequency: 2450 MHz;
Medium parameters used: f = 2450 MHz; σ = 2.028 S/m; εr = 52.087; ρ = 1000 kg/m3
Phantom section: Flat Section
DASY Configuration:
•Probe: EX3DV4 - SN3921; ConvF(7.64, 7.64, 7.64); Calibrated: 2016/10/25;
•Sensor-Surface: 1.4mm (Mechanical Surface Detection), z = 1.0, 31.0
•Electronics: DAE4 Sn482; Calibrated: 2016/08/09
•Phantom: ELI v5.0 (20deg probe tilt); Type: QDOVA002AA; Serial: TP:1259
•DASY52 52.8.8(1222); SEMCAD X 14.6.10(7331)
System Performance Check at Frequencies above 2 GHz/Validation D2450 MSL/
Area Scan (8x8x1): Measurement grid: dx=12mm, dy=12mm
Maximum value of SAR (measured) = 18.0 W/kg
System Performance Check at Frequencies above 2 GHz/Validation D2450 MSL/
Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 110.5 V/m; Power Drift = 0.13 dB
Peak SAR (extrapolated) = 28.4 W/kg
SAR(1 g) = 13.7 W/kg; SAR(10 g) = 6.38 W/kg
Maximum value of SAR (measured) = 22.9 W/kg
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 33 of 58
Appendix C. Calibration Certificate
C.1. E-Field Probe EX3DV4 (Serial No. 3921 / Control No. WA02)
Please see the following pages.
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 34 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 35 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 36 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 37 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 38 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 39 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 40 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 41 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 42 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 43 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 44 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 45 of 58
C.2. System Validation Dipole D2450V2 (Serial No. 894 / Control No. WA55)
Please see the following pages.
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 46 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 47 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 48 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 49 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 50 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 51 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 52 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
Project No: JB-Z0321-A
Model No.: Type1DR
FCC ID: VPYLB1DR
Issued: July 26, 2017
Page 53 of 58
Sony Global Manufacturing & Operations Corporation EMC/RF Test Laboratory, Main Lab.
A2LA Cert. #3203.01
Kisarazu Site 8-4 Shiomi Kisarazu-shi, Chiba, 292-0834 Japan
PHONE +81-(438) 37-2750 FAX +81-(438) 37-2048
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Document ID3490613
Application IDV7D6ayq+JN5ek31MEsoxOw==
Document Description03 FCC SAR Report_JB-Z0321-A
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Permanent ConfidentialNo
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Display FormatAdobe Acrobat PDF - pdf
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Date Submitted2017-07-31 00:00:00
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Creation Date2017-07-26 08:21:07
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Document Lastmod2017-07-26 08:23:24
Document Title03 FCC SAR Report_JB-Z0321-A
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XMP Toolkit                     : Adobe XMP Core 5.6-c015 84.159810, 2016/09/10-02:41:30
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Company                         : Sony EMCS Corp.
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