N016 GSM Quad-band/HSPA-UMTS Six-band/LTE 19 band mobile phone RF Exposure Info EMF2001001 TCL Communication Ltd.

TCL Communication Ltd. GSM Quad-band/HSPA-UMTS Six-band/LTE 19 band mobile phone

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C.4.2 Robot
The SPEAG DASY system uses the high precision robots (DASY4: RX90XL; DASY5: RX160L) type
from Stäubli SA (France). For the 6-axis controller system, the robot controller version from Stäubli
is used. The Stäubli robot series have many features that are important for our application:
 High precision (repeatability 0.02mm)
 High reliability (industrial design)
 Low maintenance costs (virtually maintenance free due to direct drive gears; no belt drives)
 Jerk-free straight movements (brushless synchron motors; no stepper motors)
 Low ELF interference (motor control fields shielded via the closed metallic construction shields)
Picture C.5DASY 4
Picture C.6DASY 5
C.4.3 Measurement Server
The Measurement server is based on a PC/104 CPU broad with CPU (dasy4: 166 MHz, Intel
Pentium; DASY5: 400 MHz, Intel Celeron), chipdisk (DASY4: 32 MB; DASY5: 128MB), RAM
(DASY4: 64 MB, DASY5: 128MB). The necessary circuits for communication with the DAE
electronic box, as well as the 16 bit AD converter system for optical detection and digital I/O
interface are contained on the DASY I/O broad, which is directly connected to the PC/104 bus of the
CPU broad.
The measurement server performs all real-time data evaluation of field measurements and surface
detection, controls robot movements and handles safety operation. The PC operating system
cannot interfere with these time critical processes. All connections are supervised by a watchdog,
and disconnection of any of the cables to the measurement server will automatically disarm the
robot and disable all program-controlled robot movements. Furthermore, the measurement server is
equipped with an expansion port which is reserved for future applications. Please note that this
expansion port does not have a standardized pinout, and therefore only devices provided by
SPEAG can be connected. Devices from any other supplier could seriously damage the
measurement server.
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Picture C.7 Server for DASY 4
Picture C.8 Server for DASY 5
C.4.4 Device Holder for Phantom
The SAR in the phantom is approximately inversely proportional to the square of the distance
between the source and the liquid surface. For a source at 5mm distance, a positioning uncertainty
of ±0.5mm would produce a SAR uncertainty of ±20%. Accurate device positioning is therefore
crucial for accurate and repeatable measurements. The positions in which the devices must be
measured are defined by the standards.
The DASY device holder is designed to cope with the different positions given in the standard. It has
two scales for device rotation (with respect to the body axis) and device inclination (with respect to
the line between the ear reference points). The rotation centers for both scales are the ear reference
point (ERP). Thus the device needs no repositioning when changing the angles.
The DASY device holder is constructed of low-loss POM material having the following dielectric
parameters: relative permittivity ε =3 and loss tangent δ =0.02. The amount of dielectric material
has been reduced in the closest vicinity of the device, since measurements have suggested that the
influence of the clamp on the test results could thus be lowered.

The extension is lightweight and made of POM, acrylic glass and foam. It 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 and ELI phantoms.
Picture C.9-1: Device Holder
Picture C.9-2: Laptop Extension Kit
C.4.5 Phantom
The SAM Twin Phantom V4.0 is constructed of a fiberglass shell integrated in a table. The shape of
the shell is based on data from an anatomical study designed to
Represent the 90th percentile of the population. The phantom enables the dissymmetric evaluation
of SAR for both left and right handed handset usage, as well as body-worn usage using the flat
©Copyright. All rights reserved by CTTL.
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phantom region. Reference markings on the Phantom allow the complete setup of all predefined
phantom positions and measurement grids by manually teaching three points in the robot. The shell
phantom has a 2mm shell thickness (except the ear region where shell thickness increases to 6
mm).
Shell Thickness: 2±0. 2 mm
Filling Volume: Approx. 25 liters
Dimensions:
810 x l000 x 500 mm (H x L x W)
Available:
Special
Picture C.10: SAM Twin Phantom
©Copyright. All rights reserved by CTTL.
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ANNEX D
Position of the wireless device in relation to the phantom
D.1 General considerations
This standard specifies two handset test positions against the head phantom – the “cheek” position
and the “tilt” position.
wt
Width of the handset at the level of the acoustic
wb
Width of the bottom of the handset
Midpoint of the width wt of the handset at the level of the acoustic output
Midpoint of the width wb of the bottom of the handset
Picture D.1-a Typical “fixed” case handset
Picture D.1-b Typical “clam-shell” case handset
Picture D.2 Cheek position of the wireless device on the left side of SAM
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Picture D.3 Tilt position of the wireless device on the left side of SAM
D.2 Body-worn device
A typical example of a body-worn device is a mobile phone, wireless enabled PDA or other battery
operated wireless device with the ability to transmit while mounted on a person’s body using a carry
accessory approved by the wireless device manufacturer.
Picture D.4Test positions for body-worn devices
D.3 Desktop device
A typical example of a desktop device is a wireless enabled desktop computer placed on a table or
desk when used.
The DUT shall be positioned at the distance and in the orientation to the phantom that corresponds
to the intended use as specified by the manufacturer in the user instructions. For devices that
employ an external antenna with variable positions, tests shall be performed for all antenna
positions specified. Picture8.5 show positions for desktop device SAR tests. If the intended use is
not specified, the device shall be tested directly against the flat phantom.
©Copyright. All rights reserved by CTTL.
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Picture D.5 Test positions for desktop devices
D.4 DUT Setup Photos
Picture D.6
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ANNEX E
Equivalent Media Recipes
The liquid used for the frequency range of 800-3000 MHz consisted of water, sugar, salt, preventol,
glycol monobutyl and Cellulose. The liquid has been previously proven to be suited for worst-case.
The Table E.1 shows the detail solution. It’s satisfying the latest tissue dielectric parameters
requirements proposed by the IEEE 1528 and IEC 62209.
TableE.1: Composition of the Tissue Equivalent Matter
Frequency
(MHz)
835Head
835Body
1900
Head
1900
Body
2450
Head
2450
Body
5800
Head
5800
Body
Ingredients (% by weight)
Water
41.45
52.5
55.242
69.91
58.79
72.60
65.53
65.53
Sugar
56.0
45.0
Salt
1.45
1.4
0.306
0.13
0.06
0.18
Preventol
0.1
0.1
Cellulose
1.0
1.0
Glycol
Monobutyl
44.452
29.96
41.15
27.22
Diethylenglycol
monohexylether
17.24
17.24
Triton X-100
17.24
17.24
ε=41.5
σ=0.90
ε=55.2
σ=0.97
ε=40.0
σ=1.40
ε=53.3
σ=1.52
ε=39.2
σ=1.80
ε=52.7
σ=1.95
ε=35.3
σ=5.27
ε=48.2
σ=6.00
Dielectric
Parameters
Target Value
Note: There are a little adjustment respectively for 750, 1750, 2600, 5200, 5300 and 5600
based on the recipe of closest frequency in table E.1.
©Copyright. All rights reserved by CTTL.
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ANNEX F
System Validation
The SAR system must be validated against its performance specifications before it is deployed.
When SAR probes, system components or software are changed, upgraded or recalibrated, these
must be validated with the SAR system(s) that operates with such components.
Table F.1: System Validation for 7307
Probe SN.
Liquid name
Validation date
Frequency point
Status (OK or Not)
7307
Head 750MHz
Mar.15,2016
750 MHz
OK
7307
Head 850MHz
Mar.15,2016
850 MHz
OK
7307
Head 900MHz
Mar.16,2016
900 MHz
OK
7307
Head 1450MHz
Mar.16,2016
1450 MHz
OK
7307
Head 1640MHz
Mar.17,2016
1640 MHz
OK
7307
Head 1750MHz
Mar.17,2016
1750 MHz
OK
7307
Head 1810MHz
Mar.18,2016
1810 MHz
OK
7307
Head 1900MHz
Mar.18,2016
1900 MHz
OK
7307
Head 2000MHz
Mar.19,2016
2000 MHz
OK
7307
Head 2100MHz
Mar.19,2016
2100 MHz
OK
7307
Head 2300MHz
Mar. 20,2016
2300 MHz
OK
7307
Head 2450MHz
Mar.20,2016
2450 MHz
OK
7307
Head 2600MHz
Mar.21,2016
2600 MHz
OK
7307
Head 3500MHz
Mar.21,2016
3500 MHz
OK
7307
Head 3700MHz
Mar.22,2016
3700 MHz
OK
7307
Head 5200MHz
Mar.22,2016
5200 MHz
OK
7307
Head 5300MHz
Mar.23,2016
5300 MHz
OK
7307
Head 5500MHz
Mar.23,2016
5500 MHz
OK
7307
Head 5600MHz
Mar.24,2016
5600 MHz
OK
7307
Head 5800MHz
Mar.24,2016
5800 MHz
OK
7307
Body 750MHz
Mar.15,2016
750 MHz
OK
7307
Body 850MHz
Mar.15,2016
850 MHz
OK
7307
Body 900MHz
Mar.16,2016
900 MHz
OK
7307
Body 1450MHz
Mar.16,2016
1450 MHz
OK
7307
Body 1640MHz
Mar.17,2016
1640 MHz
OK
7307
Body 1750MHz
Mar.17,2016
1750 MHz
OK
7307
Body 1810MHz
Mar.18,2016
1810 MHz
OK
7307
Body 1900MHz
Mar.18,2016
1900 MHz
OK
7307
Body 2000MHz
Mar.19,2016
2000 MHz
OK
7307
Body 2100MHz
Mar.19,2016
2100 MHz
OK
7307
Body 2300MHz
Mar. 20,2016
2300 MHz
OK
7307
Body 2450MHz
Mar.20,2016
2450 MHz
OK
7307
Body 2600MHz
Mar.21,2016
2600 MHz
OK
7307
Body 3500MHz
Mar.21,2016
3500 MHz
OK
7307
Body 3700MHz
Mar.22,2016
3700 MHz
OK
7307
Body 5200MHz
Mar.22,2016
5200 MHz
OK
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
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ANNEX G
Probe Calibration Certificate
Probe 7307 Calibration Certificate
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©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
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ANNEX H
Dipole Calibration Certificate
750 MHz Dipole Calibration Certificate
©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
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©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
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©Copyright. All rights reserved by CTTL.
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Document ID3323494
Application IDggNcwb1rcW1ht5PXZj8ikw==
Document DescriptionI16Z42454-SEM01_SAR_Rev3_216-242
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize460.15kB (5751864 bits)
Date Submitted2017-03-20 00:00:00
Date Available2017-03-22 00:00:00
Creation Date2017-03-20 11:25:02
Producing SoftwareAdobe PDF Library 10.0
Document Lastmod2017-03-20 11:25:02
Document TitleEMF2001001
Document CreatorAcrobat PDFMaker 10.1 Word 版
Document Author: Qdy

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Title                           : EMF2001001
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