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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SAR TEST REPORT
No. I16Z42454-SEM01
For
TCL Communication Ltd.
GSM Quad-band/HSPA-UMTS Six-band/LTE 19 band mobile phone
Modelname: BBB100-1
With
Hardware Version: 05
Software Version: AAJ048
FCC ID: 2ACCJN016
Issued Date: 2017-3-18
Note:
The test results in this test report relate only to the devices specified in this report. This report shall not be
reproduced except in full without the written approval of CTTL.
Test Laboratory:
CTTL, Telecommunication Technology Labs, Academy of Telecommunication Research, MIIT
No. 51 Shouxiang Science Building, Xueyuan Road, Haidian District, Beijing, P. R. China100191
Tel:+86(0)10-62304633-2512,Fax:+86(0)10-62304633-2504
Email: cttl_terminals@catr.cn, website:www.chinattl.com
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
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REPORT HISTORY
Report Number
I16Z42454-SEM01
Revision
Rev.0
Issue Date
2017-3-18
Description
Initial creation of test report
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TABLE OF CONTENT
1 TEST LABORATORY ....................................................................................................................5
1.1 TESTING LOCATION ........................................................................................................................................ 5
1.2 TESTING ENVIRONMENT................................................................................................................................. 5
1.3 PROJECT DATA ............................................................................................................................................... 5
1.4 SIGNATURE ..................................................................................................................................................... 5
2 STATEMENT OF COMPLIANCE ..................................................................................................6
3 CLIENT INFORMATION ................................................................................................................8
3.1 APPLICANT INFORMATION .............................................................................................................................. 8
3.2 MANUFACTURER INFORMATION ..................................................................................................................... 8
4 EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) .................................9
4.1 ABOUT EUT ................................................................................................................................................... 9
4.2INTERNAL IDENTIFICATION OF EUT USED DURING THE TEST ........................................................................... 9
4.3 INTERNAL IDENTIFICATION OF AE USED DURING THE TEST ............................................................................ 9
5 TEST METHODOLOGY ..............................................................................................................10
5.1 APPLICABLE LIMIT REGULATIONS ................................................................................................................ 10
5.2 APPLICABLE MEASUREMENT STANDARDS.................................................................................................... 10
6 SPECIFIC ABSORPTION RATE (SAR) ...................................................................................... 11
6.1 INTRODUCTION............................................................................................................................................. 11
6.2 SAR DEFINITION .......................................................................................................................................... 11
7 TISSUE SIMULATING LIQUIDS .................................................................................................12
7.1 TARGETS FOR TISSUE SIMULATING LIQUID .................................................................................................... 12
7.2 DIELECTRIC PERFORMANCE ......................................................................................................................... 13
8 SYSTEM VERIFICATION ............................................................................................................22
8.1 SYSTEM SETUP ............................................................................................................................................. 22
8.2 SYSTEM VERIFICATION ................................................................................................................................. 23
9 MEASUREMENT PROCEDURES ..............................................................................................24
9.1 TESTS TO BE PERFORMED ............................................................................................................................. 24
9.2 GENERAL MEASUREMENT PROCEDURE ........................................................................................................ 25
9.3 WCDMA MEASUREMENT PROCEDURES FOR SAR ...................................................................................... 27
9.4 SAR MEASUREMENT FOR LTE ..................................................................................................................... 28
9.5 BLUETOOTH & WI-FI MEASUREMENT PROCEDURES FOR SAR .................................................................... 30
9.6 POWER DRIFT ............................................................................................................................................... 30
10 AREA SCAN BASED 1-G SAR.................................................................................................31
10.1 REQUIREMENT OF KDB .............................................................................................................................. 31
10.2 FAST SAR ALGORITHMS ............................................................................................................................ 31
11 CONDUCTED OUTPUT POWER ..............................................................................................32
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11.1 GSM MEASUREMENT RESULT .................................................................................................................... 33
11.2 WCDMA MEASUREMENT RESULT.............................................................................................................. 36
11.3 LTE MEASUREMENT RESULT ...................................................................................................................... 38
11.4 WI-FI AND BT MEASUREMENT RESULT ...................................................................................................... 65
12 SIMULTANEOUS TX SAR CONSIDERATIONS .......................................................................66
12.1 INTRODUCTION........................................................................................................................................... 66
12.2 TRANSMIT ANTENNA SEPARATION DISTANCES ........................................................................................... 66
12.3 SAR MEASUREMENT POSITIONS ................................................................................................................ 67
12.4 STANDALONE SAR TEST EXCLUSION CONSIDERATIONS ............................................................................ 67
13 EVALUATION OF SIMULTANEOUS .........................................................................................68
14 SAR TEST RESULT ..................................................................................................................69
14.1 THE EVALUATION OF MULTI-BATTERIES ...................................................................................................... 69
14.2 SAR RESULTS FOR FAST SAR ..................................................................................................................... 70
14.3 SAR RESULTS FOR STANDARD PROCEDURE ................................................................................................ 88
14.4 WLAN EVALUATION .................................................................................................................................. 97
14.5 WLAN EVALUATION FOR 5G ................................................................................................................... 100
15 SAR MEASUREMENT VARIABILITY .....................................................................................105
16 MEASUREMENT UNCERTAINTY ..........................................................................................107
16.1 MEASUREMENT UNCERTAINTY FOR NORMAL SAR TESTS (300MHZ~3GHZ) .......................................... 107
16.2 MEASUREMENT UNCERTAINTY FOR NORMAL SAR TESTS (3~6GHZ) ...................................................... 108
16.3 MEASUREMENT UNCERTAINTY FOR FAST SAR TESTS (300MHZ~3GHZ) ................................................ 109
16.4 MEASUREMENT UNCERTAINTY FOR FAST SAR TESTS (3~6GHZ) ............................................................. 110
17 MAIN TEST INSTRUMENTS................................................................................................... 111
ANNEX A GRAPH RESULTS .................................................................................................... 112
ANNEX B SYSTEM VERIFICATION RESULTS .......................................................................192
ANNEX C SAR MEASUREMENT SETUP ................................................................................213
ANNEX D POSITION OF THE WIRELESS DEVICE IN RELATION TO THE PHANTOM ......219
ANNEX E EQUIVALENT MEDIA RECIPES ..............................................................................222
ANNEX F SYSTEM VALIDATION .............................................................................................223
ANNEX G PROBE CALIBRATION CERTIFICATE ...................................................................224
ANNEX H DIPOLE CALIBRATION CERTIFICATE ..................................................................235
ANNEX I ACCREDITATION CERTIFICATE ..............................................................................304
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1 Test Laboratory
1.1 Testing Location
Company Name:
CTTL(Shouxiang)
Address:
No. 51 Shouxiang Science Building, Xueyuan Road, Haidian District,
Beijing, P. R. China100191
1.2 Testing Environment
Temperature:
18°C~25°C,
30%~ 70%
Relative humidity:
Ground system resistance:
Ambient noise & Reflection:
< 0.5 Ω
< 0.012 W/kg
1.3 Project Data
Project Leader:
Qi Dianyuan
Test Engineer:
Lin Xiaojun
Testing Start Date:
January 12, 2017
Testing End Date:
February 13, 2017
1.4 Signature
Lin Xiaojun
(Prepared this test report)
Qi Dianyuan
(Reviewed this test report)
Lu Bingsong
Deputy Director of the laboratory
(Approved this test report)
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2 Statement of Compliance
The maximum results of SAR found during testing for TCL Communication Ltd. GSM
Quad-band/HSPA-UMTS Six-band/LTE 19 band mobile phone BBB100-1 are as follows:
Table 2.1: Highest Reported SAR (1g)
Exposure Configuration
Head
(Separation Distance 0mm)
Hotspot
(Separation Distance 10mm)
Technology Band
Highest Reported SAR
1g(W/kg)
Equipment
Class
GSM 850 antenna1
0.47
GSM 850 antenna2
0.40
PCS 1900
0.24
UMTS FDD 5 antenna1
0.37
UMTS FDD 5 antenna2
0.36
UMTS FDD 4
0.52
UMTS FDD 2
0.28
LTE Band 2
0.22
LTE Band 4
0.35
LTE Band 5 antenna1
0.24
LTE Band 5 antenna2
0.22
LTE Band 7
0.18
LTE Band 12 antenna1
0.16
LTE Band 12 antenna2
0.20
LTE Band 13 antenna1
0.24
LTE Band 13 antenna2
0.23
LTE Band 30
0.13
LTE Band 41
0.08
WLAN 2.4 GHz
0.29
DTS
WLAN 5 GHz
0.05
UNII
GSM 850 antenna1
0.58
GSM 850 antenna2
0.54
PCS 1900
1.21
UMTS FDD 5 antenna1
0.44
UMTS FDD 5 antenna2
0.34
UMTS FDD 4
1.07
UMTS FDD 2
1.27
LTE Band 2
1.31
LTE Band 4
1.14
LTE Band 5 antenna1
0.30
LTE Band 5 antenna2
0.32
LTE Band 7
1.12
LTE Band 12 antenna1
0.31
LTE Band 12 antenna2
0.31
LTE Band 13 antenna1
0.43
LTE Band 13 antenna2
0.29
PCE
PCE
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LTE Band 30
1.21
LTE Band 41
1.17
WLAN 2.4 GHz
0.56
DTS
WLAN 5 GHz
0.59
UNII
The SAR values found for the Mobile Phone are below the maximum recommended levels of 1.6
W/Kg as averaged over any 1g tissue according to the ANSI C95.1-1992.
For body worn operation, this device has been tested and meets FCC RF exposure guidelines when
used with any accessory that contains no metal and which provides a minimum separation distance
of 10 mm between this device and the body of the user. Use of other accessories may not ensure
compliance with FCC RF exposure guidelines.
The EUT battery must be fully charged and checked periodically during the test to ascertain uniform
power output.
The measurement together with the test system set-up is described in annex C of this test report. A
detailed description of the equipment under test can be found in chapter 4 of this test report. The
highest reported SAR value is obtained at the case of (Table 2.1), and the values are: 1.31
W/kg(1g).
Table 2.2: The sum of reported SAR values for main antenna and WiFi
Highest reported
SAR value for Head
Highest reported
SAR value for Body
Position
Main antenna
WiFi
Sum
Left hand, Touch cheek
0.47
0.29
0.76
Right hand, Touch cheek
0.52
0.11
0.63
Rear
0.88
0.59
1.47
Bottom
1.31
1.31
Note1: we have evaluated and chose the highest value of both main antennae in the above table
Note2: we have evaluated and chose the highest value of WiFi 2.4G and 5G in the above table
Table 2.3: The sum of reported SAR values for main antenna and BT
Maximum reported
SAR value for Head
Maximum reported
SAR value for Body
Position
Main antenna
BT
Sum
Right hand, Touch cheek
0.52
0.33[1]
0.85
Rear
0.88
0.17[1]
1.05
Bottom
1.31
1.31
[1] - Estimated SAR for Bluetooth (see the table 13.3)
According to the above tables, the highest sum of reported SAR values is 1.47 W/kg (1g). The
detail for simultaneous transmission consideration is described in chapter 13.
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According to the KDB648474 D04, the UMPC mini-tablet procedures must also be applied to test
the SAR of all surfaces and edges with an antenna located at ≤ 25 mm from that surface or edge, in
direct contact with a flat phantom, for 10-g extremity SAR according to the body-equivalent tissue
dielectric parameters in KDB Publication 865664 D01 to address interactive hand use exposure
conditions. When hotspot mode applies, 10-g extremity SAR is required only for the surfaces and
edges with hotspot mode 1-g reported SAR > 1.2 W/kg
Table 2.4: 0mm Reported SAR for phablet (10g)
Exposure Configuration
Technology Band
Highest Reported SAR
10g(W/kg)
PCS 1900
2.44
UMTS FDD 2
2.12
LTE Band 2
2.29
LTE Band 30
2.49
Hotspot
(Separation Distance 0mm)
Limit
10g (W/kg)
4.0
3 Client Information
3.1 Applicant Information
Company Name:
TCL Communication Ltd.
Address/Post:
5F, C building, No. 232, Liang Jing Road ZhangJiang High-Tech Park,
Pudong Area Shanghai, P.R. China. 201203
City:
Shanghai
Country:
China
Contact Person:
Gong Zhizhou
E-mail:
zhizhou.gong@tcl.com
Telephone:
0086-21-31363544
Fax:
0086-21-61460602
3.2 Manufacturer Information
Company Name:
TCL Communication Ltd.
Address/Post:
5F, C building, No. 232, Liang Jing Road ZhangJiang High-Tech Park,
Pudong Area Shanghai, P.R. China. 201203
City:
Shanghai
Country:
China
Contact Person:
Gong Zhizhou
E-mail:
zhizhou.gong@tcl.com
Telephone:
0086-21-31363544
Fax:
0086-21-61460602
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4 Equipment Under Test (EUT) and Ancillary Equipment (AE)
4.1 About EUT
Description:
Model name:
Operating mode(s):
Tested Tx Frequency:
GPRS/EGPRS Multislot Class:
GPRS capability Class:
Test device Production information:
Device type:
Antenna type:
Accessories/Body-worn configurations:
Hotspot mode:
VoIP:
Product Dimension:
GSM Quad-band/HSPA-UMTS Six-band/LTE 19 band mobile phone
BBB100-1
GSM 850/900/1800/1900, UMTS FDD 1/2/4/5/6/8, BT, Wi-Fi
LTE Band 1/2/3/4/5/7/8/12/13/17/19/20/28/29/30/38/39/40/41
825 – 848.8 MHz (GSM 850)
1850.2 – 1910 MHz (GSM 1900)
826.4–846.6 MHz (WCDMA 850 Band V)
1712.4 – 1752.6 MHz (WCDMA 1700 Band IV)
1852.4–1907.6 MHz (WCDMA1900 Band II)
1860 – 1900 MHz (LTE Band 2)
1720 – 1745 MHz (LTE Band 4)
824.7 – 848.3 MHz (LTE Band 5)
2502.5 – 2567.5 MHz (LTE Band 7)
699.7 – 715.3 MHz (LTE Band 12)
779.5 –784.5 MHz (LTE Band 13)
2307.5 – 2310 MHz (LTE Band 30)
2498.5 – 2687.5 MHz (LTE Band41)
2412 – 2462 MHz (Wi-Fi 2.4G)
5150-5825 MHz (Wi-Fi 5G)
12
Production unit
Portable device
Integrated antenna
Headset
Support
Support
L: 149.3mm W: 72.5mm overall diagonal: 166mm
4.2Internal Identification of EUT used during the test
EUT ID*
EUT1
IMEI
004402243182437
HW
05
SW Version
AAJ048
EUT2
004402243183906
05
AAJ048
EUT3
004402243183039
05
AAJ048
EUT4
004402243191990
05
AAJ048
EUT5
004402243191883
05
AAJ048
EUT6
004402243180936
05
AAJ048
*EUT ID: is used to identify the test sample in the lab internally.
Note: It is performed to test SAR with the EUT1&2&3&4&5 and conducted power with the EUT6.
4.3 Internal Identification of AE used during the test
AE ID*
AE1
Description
Battery
Model
BAT-63108-003
SN
CAC3440001C3
Manufacturer
ATL
AE2
Battery
TLp034E1
CAC3440003C1
BYD
AE3
Headset
WH60
CCB0045L17C3
Lianchuang
*AE ID: is used to identify the test sample in the lab internally.
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5 TEST METHODOLOGY
5.1 Applicable Limit Regulations
ANSI C95.1–1992:IEEE Standard for Safety Levels with Respect to Human Exposure to Radio
Frequency Electromagnetic Fields, 3 kHz to 300 GHz.
It specifies the maximum exposure limit of 1.6 W/kg as averaged over any 1 gram of tissue for
portable devices being used within 20 cm of the user in the uncontrolled environment.
5.2 Applicable Measurement Standards
IEEE 1528–2013: Recommended Practice for Determining the Peak Spatial-Average Specific
Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement
Techniques.
KDB447498 D01: General RF Exposure Guidance v06: Mobile and Portable Devices RF
Exposure Procedures and Equipment Authorization Policies.
KDB648474 D04 Handset SAR v01r03: SAR Evaluation Considerations for Wireless Handsets.
KDB941225 D01 SAR test for 3G devices v03r01: SAR Measurement Procedures for 3G Devices
KDB941225 D05 SAR for LTE Devices v02r05: SAR Evaluation Considerations for LTE Devices
KDB941225 D06 Hotspot Mode SAR v02r01: SAR Evaluation Procedures for Portable Devices
with Wireless Router Capabilities
KDB248227 D01 802.11 Wi-Fi SAR v02r02: SAR GUIDANCE FOR IEEE 802.11 (Wi-Fi)
TRANSMITTERS
KDB865664 D01SAR measurement 100 MHz to 6 GHz v01r04: SAR Measurement Requirements
for 100 MHz to 6 GHz.
KDB865664 D02RF Exposure Reporting v01r02: RF Exposure Compliance Reporting and
Documentation Considerations
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6 Specific Absorption Rate (SAR)
6.1 Introduction
SAR is related to the rate at which energy is absorbed per unit mass in an object exposed to a radio
field. The SAR distribution in a biological body is complicated and is usually carried out by
experimental techniques or numerical modeling. The standard recommends limits for two tiers of
groups, occupational/controlled and general population/uncontrolled, based on a person’s
awareness and ability to exercise control over his or her exposure. In general,
occupational/controlled exposure limits are higher than the limits for general
population/uncontrolled.
6.2 SAR Definition
The SAR definition is 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 ) . The equation description is as below:
SAR
d dW
d dW
dt dm
dt ρ dv
SAR is expressed in units of Watts per kilogram (W/kg)
SAR measurement can be either related to the temperature elevation in tissue by
SAR = c(
δT
δt
Where: C is the specific head capacity, δ T is the temperature rise and
or related to the electrical field in the tissue by
σ E
SAR =
ρ
Where:
δ t is the exposure duration,
σ is the conductivity of the tissue, ρ is the mass density of tissue and E is the RMS
electrical field strength.
However for evaluating SAR of low power transmitter, electrical field measurement is typically
applied.
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7 Tissue Simulating Liquids
7.1 Targets for tissue simulating liquid
Frequency(MHz)
750
750
835
835
1750
1750
1900
1900
2300
2300
2450
2450
2600
2600
5250
5250
5600
5600
5750
5750
Table 7.1: Targets for tissue simulating liquid
Liquid Type Conductivity(σ) ± 5% Range Permittivity(ε)
Head
0.89
0.85~0.93
41.94
Body
0.96
0.91~1.01
55.5
Head
0.90
0.86~0.95
41.5
Body
0.97
0.92~1.02
55.2
Head
1.37
1.30~1.44
40.08
Body
1.49
1.42~1.56
53.4
Head
1.40
1.33~1.47
40.0
Body
1.52
1.44~1.60
53.3
Head
1.67
1.59~1.75
39.47
Body
1.85
1.76~1.94
52.8
Head
1.80
1.71~1.89
39.2
Body
1.95
1.85~2.05
52.7
Head
1.96
1.86~2.06
39.01
Body
2.16
2.05~2.27
52.5
Head
4.71
4.47~4.95
35.93
Body
5.36
5.09~5.63
48.9
Head
5.07
4.82~5.32
35.53
Body
5.77
5.48~6.06
48.5
Head
5.22
4.96~5.48
35.36
Body
5.94
5.64~6.24
48.3
± 5% Range
39.8~44.0
52.7~58.3
39.4~43.6
52.4~58.0
38.1~42.1
50.7~56.1
38.0~42.0
50.6~56.0
37.5~41.4
50.2~55.4
37.2~41.2
50.1~55.3
37.1~41.0
49.9~55.1
34.1~37.7
46.5~51.3
33.8~37.3
46.1~50.9
33.6~37.1
45.9~50.7
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7.2 Dielectric Performance
Table 7.2: Dielectric Performance of Tissue Simulating Liquid
Measurement Date
(yyyy-mm-dd)
2017-1-12
2017-1-13
2017-1-14
2017-1-15
2017-1-18
2017-1-16
2017-1-17
2017-2-13
750 MHz
Permittivity
ε
42.21
Drift
(%)
0.64
Conductivity
σ (S/m)
0.891
Drift
(%)
0.11
Body
750 MHz
56.52
1.84
0.954
-0.63
Head
835 MHz
41.56
0.14
0.913
1.44
Body
835 MHz
56.11
1.65
0.971
0.10
Head
1750 MHz
1750 MHz
40.31
0.57
1.351
-1.39
53.42
0.04
1.511
1.41
40.81
2.03
1.421
1.50
Body
1900 MHz
1900 MHz
52.21
-2.05
1.517
-0.20
Head
2300 MHz
39.01
-1.17
1.628
-2.51
Body
2300 MHz
52.37
-0.81
1.803
-2.54
Head
2450 MHz
38.41
-2.02
1.816
0.89
Body
2450 MHz
51.89
-1.54
1.977
1.38
Head
2600 MHz
37.99
-2.61
1.959
-0.05
Body
2600 MHz
52.31
-0.36
2.151
-0.42
Head
5250 MHz
36.28
0.97
4.726
0.34
Body
5250 MHz
47.44
-2.99
5.259
-1.88
Head
5600 MHz
35.73
0.56
5.199
2.54
Body
5600 MHz
46.98
-3.13
5.708
-1.07
Head
5825 MHz
35.38
0.06
5.414
3.72
Body
5825 MHz
46.78
-3.15
5.992
0.88
Type
Frequency
Head
Body
Head
Note: The liquid temperature is 22.0 C
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Picture 7-1 Liquid depth in the Head Phantom (750MHz)
Picture 7-2 Liquid depth in the Flat Phantom (750MHz)
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Picture 7-3 Liquid depth in the Head Phantom (835 MHz)
Picture 7-4 Liquid depth in the Flat Phantom (835 MHz)
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Picture 7-5 Liquid depth in the Head Phantom (1750 MHz)
Picture 7-6 Liquid depth in the Flat Phantom (1750MHz)
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Picture 7-7 Liquid depth in the Head Phantom (1900 MHz)
Picture 7-8 Liquid depth in the Flat Phantom (1900MHz)
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Picture 7-9 Liquid depth in the Head Phantom (2450MHz)
Picture 7-10 Liquid depth in the Flat Phantom (2450MHz)
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Picture 7-11 Liquid depth in the Head Phantom (2600 MHz Head)
Picture 7-12 Liquid depth in the Flat Phantom (2600MHz)
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Picture 7-13 Liquid depth in the Head Phantom (2300 MHz)
Picture 7-14 Liquid depth in the Flat Phantom (2300MHz)
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Picture 7-15 Liquid depth in the Head Phantom (5GHz)
Picture 7-16 Liquid depth in the Flat Phantom (5GHz)
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8 System verification
8.1 System Setup
In the simplified setup for system evaluation, the DUT is replaced by a calibrated dipole and the
power source is replaced by a continuous wave that comes from a signal generator. The calibrated
dipole must be placed beneath the flat phantom section of the SAM twin phantom with the correct
distance holder. The distance holder should touch the phantom surface with a light pressure at the
reference marking and be oriented parallel to the long side of the phantom. The equipment setup is
shown below:
Picture 8.1 System Setup for System Evaluation
Picture 8.2 Photo of Dipole Setup
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8.2 System Verification
SAR system verification is required to confirm measurement accuracy, according to the tissue
dielectric media, probe calibration points and other system operating parameters required for
measuring the SAR of a test device. The system verification must be performed for each frequency
band and within the valid range of each probe calibration point required for testing the device.
The system verification results are required that the area scan estimated 1-g SAR is within 3% of
the zoom scan 1-g SAR. The details are presented in annex B.
Table 8.1: System Verification of Head
Target value (W/kg)
Measured value(W/kg)
Frequency
10 g
Average
1g
Average
10 g
Average
1g
Average
10 g
Average
1g
Average
2017-1-12
750 MHz
5.46
8.33
5.24
8.12
-4.03%
-2.52%
2017-1-13
835 MHz
6.18
9.44
6.04
9.24
-2.27%
-2.12%
2017-1-14
1750 MHz
19.5
36.8
19.1
36.2
-1.95%
-1.63%
2017-1-15
1900 MHz
21.2
40.7
20.7
40.1
-2.26%
-1.52%
2017-1-18
2300 MHz
23.8
49.8
23.6
48.8
-0.67%
-2.01%
2017-1-16
2450 MHz
24.6
52.8
25.5
54.0
3.58%
2.35%
2017-1-17
2600 MHz
25.2
56.7
26.0
58.1
3.02%
2.43%
5250 MHz
22.5
78.6
22.0
77.7
-2.22%
-1.15%
5600 MHz
23.4
81.8
23.1
82.0
-1.28%
0.24%
5750 MHz
22.7
79.8
22.7
81.2
0.00%
1.75%
Measurement
Date
(yyyy-mm-dd)
2017-2-13
Deviation
Table 8.2: System Verification of Body
Target value (W/kg)
Measured value (W/kg)
Frequency
10 g
Average
1g
Average
10 g
Average
1g
Average
10 g
Average
1g
Average
2017-1-12
750 MHz
5.76
8.78
5.56
8.48
-3.47%
-3.42%
2017-1-13
835 MHz
6.36
9.69
6.20
9.44
-2.52%
-2.58%
2017-1-14
1750 MHz
19.6
37.0
19.84
37.72
1.22%
1.95%
2017-1-15
1900 MHz
21.3
40.1
21.68
41.28
1.78%
2.94%
2017-1-18
2300 MHz
23.3
48.1
23.44
48.80
0.60%
1.46%
2017-1-16
2450 MHz
24.1
51.2
24.96
52.88
3.57%
3.28%
2017-1-17
2600 MHz
24.8
55.3
25.68
57.64
3.55%
4.23%
5250 MHz
21.2
75.6
21.30
75.40
0.47%
-0.26%
5600 MHz
22.1
79.1
22.50
79.30
1.81%
0.25%
5750 MHz
20.8
74.5
20.90
74.20
0.48%
-0.40%
Measurement
Date
(yyyy-mm-dd)
2017-2-13
Deviation
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9 Measurement Procedures
9.1 Tests to be performed
In order to determine the highest value of the peak spatial-average SAR of a handset, all device
positions, configurations and operational modes shall be tested for each frequency band according
to steps 1 to 3 below. A flowchart of the test process is shown in picture 9.1.
Step 1: The tests described in 9.2 shall be performed at the channel that is closest to the centre of
the transmit frequency band ( f c ) for:
a) all device positions (cheek and tilt, for both left and right sides of the SAM phantom, as described
in annex D),
b) all configurations for each device position in a), e.g., antenna extended and retracted, and
c) all operational modes, e.g., analogue and digital, for each device position in a) and configuration
in b) in each frequency band.
If more than three frequencies need to be tested according to 11.1 (i.e., N c > 3), then all
frequencies, configurations and modes shall be tested for all of the above test conditions.
Step 2: For the condition providing highest peak spatial-average SAR determined in Step 1,perform
all tests described in 9.2 at all other test frequencies, i.e., lowest and highest frequencies. In
addition, for all other conditions (device position, configuration and operational mode) where the
peak spatial-average SAR value determined in Step 1 is within3 dB of the applicable SAR limit, it is
recommended that all other test frequencies shall be tested as well.
Step 3: Examine all data to determine the highest value of the peak spatial-average SAR found in
Steps 1 to 2.
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Picture 9.1Block diagram of the tests to be performed
9.2 General Measurement Procedure
The area and zoom scan resolutions specified in the table below must be applied to the SAR
measurements and fully documented in SAR reports to qualify for TCB approval. Probe boundary
effect error compensation is required for measurements with the probe tip closer than half a probe
tip diameter to the phantom surface. Both the probe tip diameter and sensor offset distance must
satisfy measurement protocols; to ensure probe boundary effect errors are minimized and the
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higher fields closest to the phantom surface can be correctly measured and extrapolated to the
phantom surface for computing 1-g SAR. Tolerances of the post-processing algorithms must be
verified by the test laboratory for the scan resolutions used in the SAR measurements, according to
the reference distribution functions specified in IEEE Std 1528-2003. The results should be
documented as part of the system validation records and may be requested to support test results
when all the measurement parameters in the following table are not satisfied.
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9.3 WCDMA Measurement Procedures for SAR
The following procedures are applicable to WCDMA handsets operating under 3GPP Release99,
Release 5 and Release 6. The default test configuration is to measure SAR with an established
radio link between the DUT and a communication test set using a 12.2kbps RMC (reference
measurement channel) configured in Test Loop Mode 1. SAR is selectively confirmed for other
physical channel configurations (DPCCH & DPDCHn), HSDPA and HSPA (HSUPA/HSDPA) modes
according to output power, exposure conditions and device operating capabilities. Both uplink and
downlink should be configured with the same RMC or AMR, when required. SAR for Release 5
HSDPA and Release 6 HSPA are measured using the applicable FRC (fixed reference channel) and
E-DCH reference channel configurations. Maximum output power is verified according to applicable
versions of 3GPP TS 34.121 and SAR must be measured according to these maximum output
conditions. When Maximum Power Reduction (MPR) is not implemented according to Cubic Metric
(CM) requirements for Release 6 HSPA, the following procedures do not apply.
For Release 5 HSDPA Data Devices:
Sub-test
βc
βd
β d (SF)
βc / βd
β hs
CM/dB
2/15
15/15
64
2/15
4/15
0.0
12/15
15/15
64
12/15
24/25
1.0
15/15
8/15
64
15/8
30/15
1.5
15/15
4/15
64
15/4
30/15
1.5
For Release 6 HSPA Data Devices
Subtest
βc
βd
βd
βc / βd
β hs
β ec
β ed
(SF)
β ed
β ed
(SF)
(codes)
CM
MPR
AG
(dB)
(dB)
Index
E-TFCI
11/15
15/15
64
11/15
22/15
209/225
1039/225
1.5
1.5
20
75
6/15
15/15
64
6/15
12/15
12/15
12/15
1.5
1.5
12
67
1.5
1.5
15
92
β ed 1 :47/15
15/15
9/15
64
15/9
30/15
30/15
β ed 2 :47/15
2/15
15/15
64
2/15
4/15
4/15
56/75
1.5
1.5
17
71
15/15
15/15
64
15/15
24/15
30/15
134/15
1.5
1.5
21
81
Rel.8 DC-HSDPA (Cat 24)
SAR test exclusion for Rel.8 DC-HSDPA must satisfy the SAR test exclusion requirements of Rel.5
HSDPA. SAR test exclusion for DC-HSDPA devices is determined by power measurements
according to the H-Set 12, Fixed Reference Channel (FRC) configuration in Table C.8.1.12 of 3GPP
TS 34.121-1. A primary and a secondary serving HS-DSCH Cell are required to perform the power
measurement and for the results to qualify for SAR test exclusion.
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9.4 SAR Measurement for LTE
SAR tests for LTE are performed with a base station simulator, Rohde & Rchwarz CMW500. Closed
loop power control was used so the UE transmits with maximum output power during SAR testing.
All powers were measured with the CMW 500.
It is performed for conducted power and SAR based on the KDB941225 D05.
SAR is evaluated separately according to the following procedures for the different test positions in
each exposure condition – head, body, body-worn accessories and other use conditions. The
procedures in the following subsections are applied separately to test each LTE frequency band.
1) QPSK with 1 RB allocation
Start with the largest channel bandwidth and measure SAR for QPSK with 1 RB allocation,
using the RB offset and required test channel combination with the highest maximum output
power among RB offsets at the upper edge, middle and lower edge of each required test
channel. When the reported SAR is ≤ 0.8 W/kg, testing of the remaining RB offset configurations
and required test channels is not required for 1 RB allocation; otherwise, SAR is required for the
remaining required test channels and only for the RB offset configuration with the highest output
power for that channel. When the reported SAR of a required test channel is > 1.45 W/kg, SAR
is required for all three RB offset configurations for that required test channel.
2) QPSK with 50% RB allocation
The procedures required for 1 RB allocation in 1) are applied to measure the SAR for QPSK
with 50% RB allocation.
3) QPSK with 100% RB allocation
For QPSK with 100% RB allocation, SAR is not required when the highest maximum output
power for 100 % RB allocation is less than the highest maximum output power in 50% and 1 RB
allocations and the highest reported SAR for 1 RB and 50% RB allocation in 1) and 2) are ≤ 0.8
W/kg. Otherwise, SAR is measured for the highest output power channel; and if the reported
SAR is > 1.45 W/kg, the remaining required test channels must also be tested.
TDD test:
TDD testing is performed using guidance from FCC KDB 941225 D05 v02r05 and the SAR test
guidance provided in April 2013 TCB works hop notes. TDD is tested at the highest duty factor using
UL-DL configuration 0 with special subframe configuration 6 and applying the FDD LTE procedures
in KDB 941225 D05 v02r05. SAR testing is performed using the extended cyclic prefix listed in
3GPP TS 36.211.
One radio frame, Tf = 307200Ts = 10 ms
One half-frame, 153600Ts = 5 ms
One slot,
Tslot=15360Ts
30720Ts
Subframe #0
Subframe #2
One
subframe,
30720Ts
DwPTS
GP
UpPT
Subframe #3
Subframe #4
Subframe #7
Subframe #5
DwPTS
GP
Subframe #8
Subframe #9
UpPT
Figure 9.2: Frame structure type 2 (for 5 ms switch-point periodicity)
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Table 9.1: Configuration of special subframe (lengths of DwPTS/GP/UpPTS)
Normal cyclic prefix in downlink
DwPTS
Extended cyclic prefix in downlink
UpPTS
DwPTS
UpPTS
Special subframe
configuration
Normal
Extended
cyclic prefix
cyclic prefix
in uplink
in uplink
Normal cyclic
Extended cyclic
prefix in uplink
prefix in uplink
2192 ⋅ Ts
2560 ⋅ Ts
4384 ⋅ Ts
5120 ⋅ Ts
6592 ⋅ Ts
7680 ⋅ Ts
19760 ⋅ Ts
20480 ⋅ Ts
21952 ⋅ Ts
24144 ⋅ Ts
25600 ⋅ Ts
26336 ⋅ Ts
7680 ⋅ Ts
6592 ⋅ Ts
20480 ⋅ Ts
19760 ⋅ Ts
23040 ⋅ Ts
21952 ⋅ Ts
24144 ⋅ Ts
13168 ⋅ Ts
2192 ⋅ Ts
4384 ⋅ Ts
2560 ⋅ Ts
23040 ⋅ Ts
5120 ⋅ Ts
12800 ⋅ Ts
Table 9.2: Uplink-downlink configurations
Subframe number
Uplink-downlink
Downlink-to-Uplink
configuration
Switch-point periodicity
5 ms
5 ms
5 ms
10 ms
10 ms
10 ms
5 ms
Duty factor is calculated by:
Duty factor = uplink frame*6+UpPTS*2/one frame length
= (30720.Ts * 6+5120. Ts*2)/307200.Ts
= 0.633
According to the KDB 447498 D01, SAR should be evaluated at more than 3 frequencies for
devices supporting transmit bands wider than 100MHz. Oct.2014 FCC-TCB conference notes
(Dec. 2014 rev.) specifies the 5 test channels to use for 3GPP band 41 SAR evaluation.
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9.5 Bluetooth & Wi-Fi Measurement Procedures for SAR
Normal network operating configurations are not suitable for measuring the SAR of 802.11
transmitters in general. Unpredictable fluctuations in network traffic and antenna diversity conditions
can introduce undesirable variations in SAR results. The SAR for these devices should be
measured using chipset based test mode software to ensure that the results are consistent and
reliable.
Chipset based test mode software is hardware dependent and generally varies among
manufacturers. The device operating parameters established in a test mode for SAR measurements
must be identical to those programmed in production units, including output power levels, amplifier
gain settings and other RF performance tuning parameters. The test frequencies should correspond
to actual channel frequencies defined for domestic use. SAR for devices with switched diversity
should be measured with only one antenna transmitting at a time during each SAR measurement,
according to a fixed modulation and data rate. The same data pattern should be used for all
measurements.
9.6 Power Drift
To control the output power stability during the SAR test, DASY4 system calculates the power drift
by measuring the E-field at the same location at the beginning and at the end of the measurement
for each test position. These drift values can be found in section14 labeled as: (Power Drift [dB]).
This ensures that the power drift during one measurement is within 5%.
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10 Area Scan Based 1-g SAR
10.1 Requirement of KDB
According to the KDB447498 D01 v05, when the implementation is based the specific polynomial fit
algorithm as presented at the 29th Bioelectromagnetics Society meeting (2007) and the estimated
1-gSAR is ≤ 1.2 W/kg, a zoom scan measurement is not required provided it is also not needed
for any other purpose; for example, if the peak SAR location required for simultaneous transmission
SAR test exclusion can be determined accurately by the SAR system or manually to discriminate
between distinctive peaks and scattered noisy SAR distributions from area scans.
There must not be any warning or alert messages due to various measurement concerns identified
by the SAR system; for example, noise in measurements, peaks too close to scan boundary, peaks
are too sharp, spatial resolution and uncertainty issues etc. The SAR system verification must also
demonstrate that the area scan estimated 1-g SAR is within 3% of the zoom scan 1-g SAR (See
Annex B). When all the SAR results for each exposure condition in a frequency band and wireless
mode are based on estimated 1-g SAR, the 1-g SAR for the highest SAR configuration must be
determined by a zoom scan.
10.2 Fast SAR Algorithms
The approach is based on the area scan measurement applying a frequency dependent attenuation
parameter. This attenuation parameter was empirically determined by analyzing a large number of
phones. The MOTOROLA FAST SAR was developed and validated by the MOTOROLA Research
Group in Ft. Lauderdale.
In the initial study, an approximation algorithm based on Linear fit was developed. The accuracy of
the algorithm has been demonstrated across a broad frequency range (136-2450 MHz)and for both
1- and 10-g averaged SAR using a sample of 264 SAR measurements from 55wireless handsets.
For the sample size studied, the root-mean-squared errors of the algorithm mare 1.2% and 5.8% for
1- and 10-g averaged SAR, respectively. The paper describing the algorithm in detail is expected to
be published in August 2004 within the Special Issue of Transactions on MTT.
In the second step, the same research group optimized the fitting algorithm to an Polynomial fit
whereby the frequency validity was extended to cover the range 30-6000MHz. Details of this study
can be found in the BEMS 2007 Proceedings.
Both algorithms are implemented in DASY software.
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11 Conducted Output Power
There are two sets of tune-up power, Normal power and Low power, used for different use cases for
GSM1900, W1700/1900 and LTE Band2/4/7/30. Normal power status is applied for head test of
above bands. Low power status is applied for body/hotspot test of above bands. For other bands,
Normal power status is applied for both head and body test.
For DTM multi-slot class mode, the device was linked with base station simulator (CMW500) and
transmit maximum power on maximum number of TX slots, i.e. one CS timeslot, and additional PS
timeslots (2 for DTM class 11) in one TDMA frame. CMW500 was used to setup the device
operated under DTM mode for power measurement and SAR testing. For conducted power, the
power of the burst for voice and the power of the bursts for data was reported separately in the table
above, and the frame-average power is derived below to determine SAR testing.
DTM frame average power (dBm) = 10*log[∑(power of each slot, in mW)/8]
Per KDB 941225 D01, considering the possibility of e.g. 3rd party VoIP operation for head and
body-worn SAR test reduction for GSM, GPRS EDGE modes is determined by the source-based
time-averaged output power including tune-up tolerance. The mode with highest specified
time-averaged output power should be tested for SAR compliance in the applicable exposure
conditions. For modes with the same specified maximum output power and tolerance, the higher
number time-slot configuration should be tested. Therefore, the EUT was set in GPRS for
GSM850/1900 and retest on highest value point with DTM mode.
The device supports downlink Release 10 LTE Carrier Aggregation (CA) only. It supports a
maximum of 2 carriers in the downlink. Other Release 10 features are not supported, including
Uplink Carrier Aggregation, Enhanced SC-FDMA and Uplink MIMO or other antenna diversity
configurations etc. All uplink communications are identical to the Release 8 Specifications.
According to KDB 941225 D05A, the downlink LTE CA SAR test is not required and PAG
requirements can be excluded.
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11.1 GSM Measurement result
During the process of testing, the EUT was controlled via Agilent Digital Radio Communication
tester (E5515C) to ensure the maximum power transmission and proper modulation. This result
contains conducted output power for the EUT. In all cases, the measured peak output power should
be greater and within 5% than EMI measurement.
Normal Power
Table 11.1-1: The conducted power measurement results for GSM, GPRS and EGPRS
GSM 850
Speech (GMSK)
Measured Power (dBm)
251
190
31.54
31.51
31.50
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
GSM 850
EGPRS (GMSK)
31.49
31.46
31.38
30.33
30.34
30.30
28.98
28.99
28.97
27.66
27.69
27.64
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
GSM 850
EGPRS (8PSK)
31.56
31.54
31.48
30.37
30.37
30.27
29.00
28.99
28.99
27.70
27.73
27.72
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
GSM 850
DTM11 (3Txslots)
26.81
26.88
26.91
25.62
25.68
25.73
23.89
23.98
24.00
22.27
22.36
22.40
Measured Power (dBm)
GSM(GMSK, 1Txslot)
GPRS(GMSK, 2Txslots)
GSM 850
DTM11 (3Txslots)
28.50
28.45
28.33
28.28
28.20
28.11
Measured Power (dBm)
251
190
128
GSM(GMSK, 1Txslot)
GPRS(8PSK, 2Txslots)
28.80
22.71
28.70
22.68
28.56
22.64
251
251
251
190
190
190
190
calculation
128
1 Txslot
GSM 850
GPRS (GMSK)
251
Tune up
Averaged Power (dBm)
251
33
-9.03
calculation
128
-9.03
31.5
-6.02
30
-4.26
29
-3.01
calculation
128
-9.03
31.5
-6.02
30
-4.26
29
-3.01
calculation
128
-9.03
26.5
-6.02
25
-4.26
23
-3.01
calculation
128
29
29
calculation
29
23
128
190
128
22.53
22.51
22.45
24.35
24.35
24.25
24.74
24.73
24.73
24.69
24.72
24.71
Averaged Power (dBm)
251
27.5
190
22.46
22.43
22.35
24.31
24.32
24.28
24.72
24.73
24.71
24.65
24.68
24.63
Averaged Power (dBm)
251
33
128
22.51
22.48
22.47
Averaged Power (dBm)
251
33
190
190
128
17.78
17.85
17.88
19.60
19.66
19.71
19.63
19.72
19.74
19.26
19.35
19.39
Averaged Power (dBm)
251
190
128
24.09
24.03
23.92
Averaged Power (dBm)
251
190
128
21.51
21.43
21.32
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 34 of 304
PCS1900
Speech (GMSK)
Measured Power (dBm)
810
661
29.32
29.32
29.39
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
PCS1900
EGPRS (GMSK)
29.29
29.30
29.35
28.38
28.25
28.02
26.56
26.47
26.25
25.32
25.18
24.93
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
PCS1900
EGPRS (8PSK)
29.23
29.27
29.30
28.27
28.17
28.02
26.48
26.36
26.19
25.22
25.11
24.98
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
PCS 1900
DTM11 (3Txslots)
25.81
25.68
25.66
24.62
24.54
24.50
22.98
22.86
22.78
21.27
21.16
21.08
Measured Power (dBm)
GSM(GMSK, 1Txslot)
GPRS(GMSK, 2Txslots)
PCS 1900
DTM11 (3Txslots)
25.65
25.30
25.05
25.40
25.27
24.90
Measured Power (dBm)
810
661
512
GSM(GMSK, 1Txslot)
GPRS(8PSK, 2Txslots)
25.61
21.45
25.33
21.31
25.03
21.11
810
810
810
661
661
661
661
calculation
512
1 Txslot
PCS1900
GPRS (GMSK)
810
Tune up
Averaged Power (dBm)
810
30.5
-9.03
calculation
512
-9.03
29
-6.02
27
-4.26
26
-3.01
calculation
512
-9.03
29
-6.02
27
-4.26
26
-3.01
calculation
512
-9.03
25.5
-6.02
24
-4.26
22.5
-3.01
calculation
512
26
26
calculation
26
22
512
661
512
20.20
20.24
20.27
22.25
22.15
22.00
22.22
22.10
21.93
22.21
22.10
21.97
Averaged Power (dBm)
810
26.5
661
20.26
20.27
20.32
22.36
22.23
22.00
22.30
22.21
21.99
22.31
22.17
21.92
Averaged Power (dBm)
810
30.5
512
20.29
20.29
20.36
Averaged Power (dBm)
810
30.5
661
661
512
16.78
16.65
16.63
18.60
18.52
18.48
18.72
18.60
18.52
18.26
18.15
18.07
Averaged Power (dBm)
810
661
512
21.23
21.02
20.69
Averaged Power (dBm)
810
661
512
19.05
18.83
18.58
NOTES:
1) Division Factors
To average the power, the division factor is as follows:
1TX-slot = 1 transmit time slot out of 8 time slots=> conducted power divided by (8/1) => -9.03dB
2TX-slots = 2 transmit time slots out of 8 time slots=> conducted power divided by (8/2) => -6.02dB
3TX-slots = 3 transmit time slots out of 8 time slots=> conducted power divided by (8/3) => -4.26dB
4TX-slots = 4 transmit time slots out of 8 time slots=> conducted power divided by (8/4) => -3.01dB
According to the conducted power as above, the body measurements are performed with
3Txslots for GSM850.
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No.I16Z42454-SEM01
Page 35 of 304
Low Power
Table 11.1-2: The conducted power measurement results for GSM, GPRS and EGPRS
PCS1900
Speech (GMSK)
Measured Power (dBm)
810
661
29.45
29.44
29.47
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
PCS1900
EGPRS (GMSK)
29.14
29.09
28.86
25.97
25.86
25.63
24.20
24.03
23.91
22.73
22.62
22.49
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
PCS1900
EGPRS (8PSK)
29.42
29.38
29.06
26.00
25.95
25.77
24.32
24.19
24.06
22.98
22.84
22.62
Measured Power (dBm)
1 Txslot
2 Txslots
3Txslots
4 Txslots
PCS 1900
DTM11 (3Txslots)
26.45
26.32
26.24
25.26
25.14
25.06
23.59
23.54
23.41
21.99
21.92
21.70
Measured Power (dBm)
GSM(GMSK, 1Txslot)
GPRS(GMSK, 2Txslots)
PCS 1900
DTM11 (3Txslots)
24.38
24.30
24.11
24.33
24.12
24.05
Measured Power (dBm)
810
661
512
GSM(GMSK, 1Txslot)
GPRS(8PSK, 2Txslots)
24.47
20.51
24.42
20.41
24.16
20.16
810
810
810
661
661
661
661
calculation
512
1 Txslot
PCS1900
GPRS (GMSK)
810
Tune up
Averaged Power (dBm)
810
30.5
-9.03
calculation
512
-9.03
26
-6.02
25
-4.26
23
-3.01
calculation
512
-9.03
26
-6.02
25
-4.26
23
-3.01
calculation
512
-9.03
26
-6.02
24
-4.26
22
-3.01
calculation
512
25
25
calculation
25
21
512
661
512
20.39
20.35
20.03
19.98
19.93
19.75
20.06
19.93
19.80
19.97
19.83
19.61
Averaged Power (dBm)
810
27
661
20.11
20.06
19.83
19.95
19.84
19.61
19.94
19.77
19.65
19.72
19.61
19.48
Averaged Power (dBm)
810
30.5
512
20.42
20.41
20.44
Averaged Power (dBm)
810
30.5
661
661
512
17.42
17.29
17.21
19.24
19.12
19.04
19.33
19.28
19.15
18.98
18.91
18.69
Averaged Power (dBm)
810
661
512
20.09
19.92
19.81
Averaged Power (dBm)
810
661
512
18.00
17.93
17.67
NOTES:
1) Division Factors
To average the power, the division factor is as follows:
1TX-slot = 1 transmit time slot out of 8 time slots=> conducted power divided by (8/1) => -9.03dB
2TX-slots = 2 transmit time slots out of 8 time slots=> conducted power divided by (8/2) => -6.02dB
3TX-slots = 3 transmit time slots out of 8 time slots=> conducted power divided by (8/3) => -4.26dB
4TX-slots = 4 transmit time slots out of 8 time slots=> conducted power divided by (8/4) => -3.01dB
According to the conducted power as above, the body measurements are performed with
1Txslots for PCS1900.
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No.I16Z42454-SEM01
Page 36 of 304
11.2 WCDMA Measurement result
Normal power
band
Item
WCDMA
ARFCN
HSUPA
DC-HSDPA
Table 11.2-1: The conducted Power for WCDMA
FDDV result
4182
4132 (826.4MHz)
4233 (846.6MHz)
(836.4MHz)
23.35
23.23
23.50
21.83
19.81
20.80
19.80
21.78
21.94
21.96
21.92
21.94
band
Item
WCDMA
ARFCN
HSUPA
DC-HSDPA
1312
(1712.4MHz)
23.22
22.22
20.20
21.18
20.17
22.22
21.85
21.83
21.81
21.86
band
Item
WCDMA
ARFCN
HSUPA
DC-HSDPA
9262
(1852.4MHz)
23.76
22.52
20.52
21.52
20.51
22.50
22.53
22.54
22.51
22.52
21.98
20.00
21.01
20.01
22.03
21.89
21.86
21.87
21.87
FDDIV result
1412
(1732.4MHz)
23.22
22.39
20.37
21.37
20.38
22.39
21.82
21.77
21.79
21.81
FDDII result
9400 (1880MHz)
23.72
22.51
20.53
21.50
20.49
22.51
22.50
22.51
22.45
22.44
22.15
20.12
21.13
20.12
22.13
22.00
22.00
21.98
22.00
1513
(1752.6MHz)
23.14
22.25
20.23
21.23
20.24
22.23
21.85
21.81
21.82
21.83
9538
(1907.6MHz)
23.93
22.48
20.47
21.48
20.46
22.47
22.61
22.58
22.61
22.60
Tune up
24
23
21
22
21
23
22
22
22
22
24
23
21
22
21
23
22
22
22
22
24
23
21
22
21
23
23
23
23
23
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No.I16Z42454-SEM01
Page 37 of 304
Low power
band
Item
WCDMA
ARFCN
HSUPA
DC-HSDPA
Table 11.2-2: The conducted Power for WCDMA
FDDIV result
1312
1412
1513
(1712.4MHz)
(1732.4MHz)
(1752.6MHz)
20.95
21.00
20.91
19.86
17.87
18.86
17.86
19.85
19.57
19.58
19.48
19.51
band
Item
WCDMA
ARFCN
HSUPA
DC-HSDPA
9262
(1852.4MHz)
19.59
19.68
17.56
18.59
17.60
19.60
19.35
19.31
19.29
19.32
20.00
18.00
18.99
17.98
19.97
19.68
19.66
19.66
19.64
FDDII result
9400 (1880MHz)
19.42
19.51
17.50
18.50
17.49
19.50
19.20
19.18
19.15
19.17
19.95
17.95
18.95
17.96
19.95
19.65
19.61
19.66
19.64
9538
(1907.6MHz)
19.61
19.65
17.65
18.66
17.66
19.67
19.42
19.37
19.39
19.41
21
20
18
19
18
20
20
20
20
20
20
20
18
19
18
20
20
20
20
20
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No.I16Z42454-SEM01
Page 38 of 304
11.3 LTE Measurement result
Normal power
Table 11.3-1: The conducted Power for LTE
Band 2
RB
allocation
Bandwidth
(MHz)
RB offset
(Start
RB)
1RB
High (5)
1RB
Middle
(3)
1RB
Low (0)
1.4 MHz
3RB
High (3)
3RB
Middle
(1)
3RB
Low (0)
6RB
(0)
1RB
High (14)
1RB
Middle
(7)
1RB
Low (0)
3 MHz
8RB
High (7)
8RB
Middle
(4)
8RB
Low (0)
Frequency
(MHz)
Max.
Target
Power
(dBm)
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
QPSK
Actual
output
power
(dBm)
23.91
23.80
24.01
23.98
23.93
24.04
23.93
23.93
24.04
23.93
23.98
23.91
23.95
23.98
24.06
23.92
23.98
23.96
22.95
22.96
23.02
23.99
23.76
24.02
23.95
23.97
24.08
24.01
24.00
24.07
22.95
22.87
23.09
22.98
22.94
23.08
23.05
22.95
23.09
16QAM
MPR
Actual
output
power
(dBm)
23.11
22.96
23.04
23.17
23.07
23.24
23.11
23.06
23.06
23.14
23.13
23.16
23.17
23.20
23.11
23.10
23.17
23.25
21.94
21.95
21.94
23.08
22.99
23.21
23.16
23.18
23.28
23.18
23.15
23.27
22.09
22.00
22.12
22.15
22.07
22.14
22.12
22.07
22.14
MPR
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No.I16Z42454-SEM01
Page 39 of 304
15RB
(0)
1RB
High (24)
1RB
Middle
(12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle
(6)
12RB
Low (0)
25RB
(0)
1RB
High (49)
1RB
Middle
(24)
1RB
Low (0)
10 MHz
25RB
High (25)
25RB
Middle
(12)
25RB
Low (0)
50RB
(0)
15 MHz
1RB
High (74)
1908.5
1880
1851.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1905
1880
1855
1905
1880
1855
1905
1880
1855
1905
1880
1855
1905
1880
1855
1905
1880
1855
1905
1880
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
22.97
22.94
23.05
24.06
23.84
24.07
24.07
24.01
24.09
24.24
24.02
24.24
22.99
22.89
23.05
23.01
22.99
23.03
23.07
22.99
23.13
23.05
22.95
23.12
24.06
24.01
24.18
24.06
23.89
24.01
24.10
24.03
24.15
23.01
22.83
22.96
23.00
22.94
22.89
22.97
22.84
22.93
23.07
22.96
22.04
22.02
22.12
23.28
23.23
23.30
23.33
23.34
23.34
23.52
23.25
23.40
22.18
22.08
22.15
22.17
22.12
22.22
22.20
22.14
22.31
22.13
22.03
22.15
23.26
23.19
23.35
23.22
23.10
23.08
23.25
23.18
23.32
22.09
21.91
21.99
22.05
22.01
21.91
21.98
21.91
21.92
22.10
22.03
1855
25
23.00
21.94
1902.5
1880
1857.5
25
25
25
24.25
24.05
24.14
23.47
23.29
23.33
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No.I16Z42454-SEM01
Page 40 of 304
1RB
Middle
(37)
1RB
Low (0)
36RB
High (38)
36RB
Middle
(19)
36RB
Low (0)
75RB
(0)
1RB
High (99)
1RB
Middle
(50)
1RB
Low (0)
20 MHz
50RB
High (50)
50RB
Middle
(25)
50RB
Low (0)
100RB
(0)
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1900
1880
1860
1900
1880
1860
1900
1880
1860
1900
1880
1860
1900
1880
1860
1900
1880
1860
1900
1880
1860
RB
allocation
Bandwidth
(MHz)
1.4 MHz
RB offset
(Start
RB)
1RB
High (5)
Frequency
(MHz)
1754.3
1732.5
1710.7
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
Band 4
Max.
Target
Power
(dBm)
24
24
24
23.92
23.84
23.81
24.24
24.05
24.18
22.98
22.83
22.99
23.04
22.85
23.00
23.00
22.82
22.91
23.06
22.87
23.01
23.98
23.89
23.77
24.07
23.91
23.91
24.12
24.02
24.08
23.01
22.85
22.80
23.10
22.97
22.89
23.05
22.82
22.91
23.12
22.86
22.86
QPSK
Actual
output
power
(dBm)
23.54
23.55
23.49
23.13
23.02
22.95
23.40
23.25
23.41
22.06
21.89
22.01
22.11
21.93
22.07
22.07
21.93
22.03
22.15
21.92
21.96
23.06
23.06
22.88
23.28
22.98
23.11
23.30
23.22
23.20
22.08
21.85
21.83
22.21
21.97
21.90
22.08
21.87
21.91
22.08
21.90
21.83
16QAM
MPR
Actual
output
power
(dBm)
22.67
22.69
22.67
MPR
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 41 of 304
1RB
Middle
(3)
1RB
Low (0)
3RB
High (3)
3RB
Middle
(1)
3RB
Low (0)
6RB
(0)
1RB
High (14)
1RB
Middle
(7)
1RB
Low (0)
3 MHz
8RB
High (7)
8RB
Middle
(4)
8RB
Low (0)
15RB
(0)
1RB
High (24)
5 MHz
1RB
Middle
(12)
1RB
Low (0)
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
23.58
23.55
23.62
23.52
23.48
23.63
23.46
23.49
23.43
23.48
23.53
23.54
23.49
23.48
23.44
22.46
22.48
22.56
23.56
23.53
23.67
23.56
23.59
23.64
23.58
23.62
23.68
22.61
22.56
22.69
22.66
22.64
22.78
22.65
22.62
22.71
22.53
22.52
22.59
23.55
23.48
23.59
23.61
23.58
23.59
23.68
23.61
23.66
22.75
22.73
22.73
22.76
22.70
22.66
22.66
22.58
22.69
22.69
22.73
22.67
22.64
22.70
22.77
21.49
21.50
21.45
22.63
22.60
22.70
22.64
22.68
22.78
22.68
22.72
22.76
21.59
21.52
21.63
21.65
21.57
21.69
21.65
21.57
21.69
21.54
21.51
21.62
22.80
22.73
22.83
22.83
22.82
22.84
22.88
22.75
22.85
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 42 of 304
12RB
High (13)
12RB
Middle
(6)
12RB
Low (0)
25RB
(0)
1RB
High (49)
1RB
Middle
(24)
1RB
Low (0)
10 MHz
25RB
High (25)
25RB
Middle
(12)
25RB
Low (0)
50RB
(0)
1RB
High (74)
1RB
Middle
(37)
15 MHz
1RB
Low (0)
36RB
High (38)
36RB
Middle
(19)
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1750
1732.5
1715
1750
1732.5
1715
1750
1732.5
1715
1750
1732.5
1715
1750
1732.5
1715
1750
1732.5
1715
1750
1732.5
1715
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
22.54
22.52
22.58
22.59
22.55
22.61
22.66
22.57
22.72
22.69
22.57
22.71
23.58
23.53
23.66
23.59
23.49
23.55
23.63
23.58
23.71
22.62
22.54
22.69
22.61
22.48
22.56
22.52
22.47
22.51
22.59
22.46
22.52
23.79
23.62
23.68
23.51
23.44
23.48
23.75
23.61
23.71
22.53
22.45
22.49
22.54
22.42
22.51
21.60
21.58
21.63
21.62
21.58
21.68
21.70
21.62
21.81
21.65
21.57
21.69
22.77
22.69
22.73
22.68
22.60
22.59
22.73
22.66
22.81
21.51
21.49
21.55
21.63
21.52
21.59
21.49
21.47
21.48
21.62
21.55
21.48
22.95
22.76
22.81
22.61
22.54
22.45
22.90
22.75
22.91
21.58
21.49
21.55
21.61
21.51
21.57
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 43 of 304
36RB
Low (0)
75RB
(0)
1RB
High (99)
1RB
Middle
(50)
1RB
Low (0)
20 MHz
50RB
High (50)
50RB
Middle
(25)
50RB
Low (0)
100RB
(0)
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
22.53
22.44
22.46
22.56
22.41
22.51
23.56
23.46
23.43
23.61
23.49
23.47
23.62
23.55
23.58
22.61
22.49
22.46
22.60
22.49
22.44
22.55
22.32
22.41
22.62
22.36
22.36
21.62
21.43
21.58
21.65
21.42
21.47
22.56
22.52
22.39
22.78
22.53
22.61
22.89
22.81
22.77
21.58
21.35
21.33
21.71
21.58
21.55
21.62
21.51
21.56
21.66
21.57
21.62
Band 5
RB
allocation
Bandwidth
(MHz)
RB offset
(Start
RB)
1RB
High (5)
1RB
Middle
(3)
1.4 MHz
1RB
Low (0)
3RB
High (3)
3RB
Middle
(1)
Frequency
(MHz)
Max.
Target
Power
(dBm)
848.3
836.5
824.7
848.3
836.5
824.7
848.3
836.5
824.7
848.3
836.5
824.7
848.3
836.5
824.7
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
QPSK
Actual
output
power
(dBm)
23.42
23.25
23.14
23.40
23.34
23.28
23.47
23.17
23.23
23.37
23.48
23.42
23.44
23.52
23.40
16QAM
MPR
Actual
output
power
(dBm)
22.63
22.28
22.33
22.78
22.55
22.26
22.62
22.33
22.29
22.60
22.75
22.51
22.61
22.68
22.70
MPR
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 44 of 304
3RB
Low (0)
6RB
(0)
1RB
High (14)
1RB
Middle
(7)
1RB
Low (0)
3 MHz
8RB
High (7)
8RB
Middle
(4)
8RB
Low (0)
15RB
(0)
1RB
High (24)
1RB
Middle
(12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle
(6)
12RB
Low (0)
25RB
(0)
848.3
836.5
824.7
848.3
836.5
824.7
847.5
836.5
825.5
847.5
836.5
825.5
847.5
836.5
825.5
847.5
836.5
825.5
847.5
836.5
825.5
847.5
836.5
825.5
847.5
836.5
825.5
846.5
836.5
826.5
846.5
836.5
826.5
846.5
836.5
826.5
846.5
836.5
826.5
846.5
836.5
826.5
846.5
836.5
826.5
846.5
836.5
826.5
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
23.43
23.40
23.48
22.48
22.57
22.56
23.49
23.30
23.29
23.53
23.36
23.40
23.49
23.22
23.34
22.53
22.41
22.37
22.51
22.34
22.31
22.49
22.32
22.36
22.57
22.35
22.33
23.45
23.28
23.52
23.48
23.39
23.34
23.56
23.38
23.32
22.49
22.41
22.46
22.52
22.47
22.42
22.52
22.37
22.45
22.45
22.38
22.37
22.62
22.68
22.78
21.34
21.80
21.73
22.59
22.31
22.60
22.68
22.29
22.42
22.79
22.55
22.54
21.59
21.43
21.36
21.63
21.42
21.31
21.57
21.39
21.40
21.60
21.27
21.25
22.62
22.47
22.61
22.76
22.65
22.49
22.78
22.35
22.38
21.61
21.43
21.43
21.63
21.53
21.44
21.66
21.47
21.42
21.52
21.36
21.27
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 45 of 304
1RB
High (49)
1RB
Middle
(24)
1RB
Low (0)
10 MHz
25RB
High (25)
25RB
Middle
(12)
25RB
Low (0)
50RB
(0)
844.0
836.5
829.0
844.0
836.5
829.0
844.0
836.5
829.0
844.0
836.5
829.0
844.0
836.5
829.0
844.0
836.5
829.0
844.0
836.5
829.0
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
23.66
23.44
23.70
23.50
23.30
23.42
23.62
23.50
23.53
22.62
22.44
22.50
22.58
22.44
22.45
22.39
22.41
22.43
22.53
22.44
22.52
22.90
22.63
22.87
22.71
22.49
22.69
22.80
22.81
22.75
21.58
21.52
21.56
21.53
21.45
21.44
21.43
21.49
21.36
21.46
21.48
21.52
Band 7
RB
allocation
Bandwidth
(MHz)
RB offset
(Start
RB)
1RB
High (24)
1RB
Middle
(12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle
(6)
12RB
Low (0)
25RB
(0)
Frequency
(MHz)
Max.
Target
Power
(dBm)
2567.5
2535
2502.5
2567.5
2535
2502.5
2567.5
2535
2502.5
2567.5
2535
2502.5
2567.5
2535
2502.5
2567.5
2535
2502.5
2567.5
2535
2502.5
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
QPSK
Actual
output
power
(dBm)
22.39
22.83
22.92
22.40
22.70
23.00
22.54
22.90
22.89
21.45
21.66
21.75
21.40
21.53
21.65
21.40
21.56
21.73
21.39
21.61
21.68
16QAM
MPR
Actual
output
power
(dBm)
21.85
21.98
22.25
21.84
21.95
22.04
21.65
22.01
22.12
20.52
20.71
20.84
20.50
20.68
20.75
20.55
20.67
20.83
20.39
20.62
20.71
MPR
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 46 of 304
1RB
High (49)
1RB
Middle
(24)
1RB
Low (0)
10 MHz
25RB
High (25)
25RB
Middle
(12)
25RB
Low (0)
50RB
(0)
1RB
High (74)
1RB
Middle
(37)
1RB
Low (0)
15 MHz
36RB
High (38)
36RB
Middle
(19)
36RB
Low (0)
75RB
(0)
1RB
High (99)
20 MHz
1RB
Middle
(50)
2565
2535
2505
2565
2535
2505
2565
2535
2505
2565
2535
2505
2565
2535
2505
2565
2535
2505
2565
2535
2505
2562.5
2535
2507.5
2562.5
2535
2507.5
2562.5
2535
2507.5
2562.5
2535
2507.5
2562.5
2535
2507.5
2562.5
2535
2507.5
2562.5
2535
2507.5
2560
2535
2510
2560
2535
2510
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
22.78
23.16
23.13
22.59
22.96
23.11
22.94
23.19
23.27
21.60
22.03
21.93
21.71
22.02
22.01
21.58
21.88
22.00
21.70
21.93
21.99
22.53
22.79
22.88
22.40
22.67
22.72
22.70
23.11
23.05
21.45
21.75
21.82
21.55
21.85
21.87
21.55
21.79
21.88
21.56
21.80
21.90
22.68
23.00
23.02
22.62
22.75
22.89
21.74
22.24
22.35
21.74
21.99
22.07
22.13
22.34
22.47
20.69
21.06
20.96
20.74
21.07
21.11
20.60
20.90
21.12
20.72
20.95
21.00
22.05
22.37
22.01
21.88
22.36
21.97
22.09
22.42
22.17
20.53
20.87
20.90
20.63
20.92
20.93
20.60
20.90
20.98
20.57
20.83
20.85
21.90
22.14
22.19
21.88
21.91
22.16
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 47 of 304
1RB
Low (0)
50RB
High (50)
50RB
Middle
(25)
50RB
Low (0)
100RB
(0)
2560
2535
2510
2560
2535
2510
2560
2535
2510
2560
2535
2510
2560
2535
2510
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
22.53
23.03
22.92
21.51
21.86
21.86
21.54
21.77
21.89
21.51
21.85
21.82
21.70
21.76
21.93
21.58
22.23
22.18
20.66
20.88
20.94
20.58
20.77
20.81
20.60
20.91
20.84
20.62
20.82
20.92
Band 12
Bandwidth
(MHz)
RB
allocation
RB offset
(Start
RB)
1RB
High (5)
1RB
Middle
(3)
1RB
Low (0)
1.4 MHz
3RB
High (3)
3RB
Middle
(1)
3RB
Low (0)
6RB
(0)
1RB
High (14)
3 MHz
1RB
Middle
(7)
QPSK
16QAM
Frequency
(MHz)
Max.
Target
Power
(dBm)
Actual output
power (dBm)
MPR
Actual output
power (dBm)
MPR
715.3
707.5
699.7
715.3
707.5
699.7
715.3
707.5
699.7
715.3
707.5
699.7
715.3
707.5
699.7
715.3
707.5
699.7
715.3
707.5
699.7
714.5
707.5
700.5
714.5
707.5
700.5
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
23.29
23.29
23.11
23.18
23.24
23.18
23.10
23.24
23.24
23.28
23.18
23.19
23.24
23.10
23.43
23.25
23.22
23.36
22.26
22.18
22.23
23.26
23.06
23.10
23.23
23.28
23.01
22.50
22.35
22.08
22.47
22.26
22.35
22.34
22.35
22.42
22.49
22.29
22.27
22.48
22.29
22.69
22.46
22.38
22.25
21.09
21.17
21.26
22.44
22.26
22.13
22.37
22.43
22.20
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 48 of 304
1RB
Low (0)
8RB
High (7)
8RB
Middle
(4)
8RB
Low (0)
15RB
(0)
1RB
High (24)
1RB
Middle
(12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle
(6)
12RB
Low (0)
25RB
(0)
1RB
High (49)
1RB
Middle
(24)
10 MHz
1RB
Low (0)
25RB
High (25)
714.5
707.5
700.5
714.5
707.5
700.5
714.5
707.5
700.5
714.5
707.5
700.5
714.5
707.5
700.5
713.5
707.5
701.5
713.5
707.5
701.5
713.5
707.5
701.5
713.5
707.5
701.5
713.5
707.5
701.5
713.5
707.5
701.5
713.5
707.5
701.5
711
707.5
704
711
707.5
704
711
707.5
704
711
707.5
704
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
23.14
23.31
23.33
22.39
22.31
22.21
22.31
22.35
22.20
22.30
22.30
22.21
22.31
22.30
22.13
23.30
23.20
23.41
23.20
23.29
23.29
23.21
23.26
23.47
22.34
22.20
22.30
22.36
22.29
22.21
22.31
22.33
22.27
22.29
22.25
22.34
22.82
22.77
22.88
23.14
23.30
23.16
22.80
22.75
22.84
22.08
22.10
22.26
22.50
22.38
22.34
21.30
21.33
21.30
21.25
21.37
21.42
21.38
21.38
21.32
21.35
21.34
21.17
22.66
22.59
22.82
22.79
22.69
22.89
22.57
22.50
22.72
21.54
21.39
21.46
21.48
21.50
21.60
21.38
21.51
21.44
21.31
21.30
21.57
22.11
21.93
22.05
22.43
22.56
22.46
22.06
22.01
22.08
21.21
21.24
21.27
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 49 of 304
25RB
Middle
(12)
25RB
Low (0)
50RB
(0)
Bandwidth
(MHz)
RB allocation
RB offset
(Start RB)
1RB
High (24)
1RB
Middle (12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle (6)
12RB
Low (0)
25RB
(0)
10 MHz
1RB
High (49)
1RB Middle
(24)
1RB
Low (0)
25RB
High (25)
25RB
Middle (12)
25RB
Low (0)
50RB (0)
711
707.5
704
711
707.5
704
711
707.5
704
Frequency
(MHz)
784.5
782
779.5
784.5
782
779.5
784.5
782
779.5
784.5
782
779.5
784.5
782
779.5
784.5
782
779.5
784.5
782
779.5
24
24
24
24
24
24
24
24
24
22.20
22.28
22.32
22.11
22.30
22.26
22.31
22.15
22.22
Band 13
QPSK
Max. Target
Power
Actual output
MPR
power (dBm)
(dBm)
23.41
24
23.48
24
23.40
24
23.35
24
23.49
24
23.41
24
23.48
24
23.30
24
23.35
24
22.28
24
22.35
24
22.34
24
22.47
24
22.41
24
22.32
24
22.42
24
22.34
24
22.34
24
22.39
24
22.33
24
22.37
24
21.27
21.34
21.38
21.20
21.21
21.24
21.36
21.16
21.25
16QAM
Actual output
MPR
power (dBm)
22.61
22.70
22.68
22.59
22.57
22.59
22.53
22.57
22.65
21.52
21.53
21.57
21.58
21.57
21.50
21.52
21.52
21.44
21.45
21.44
21.50
782
24
23.04
22.60
782
24
23.40
22.89
782
24
23.06
22.60
782
24
22.25
21.29
782
24
22.41
21.36
782
24
22.28
21.24
782
24
22.24
21.24
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 50 of 304
Band 30
Bandwidth
(MHz)
RB allocation
RB offset
(Start RB)
1RB
High (24)
1RB
Middle (12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle (6)
12RB
Low (0)
25RB
(0)
10 MHz
1RB
High (49)
1RB Middle
(24)
1RB
Low (0)
25RB
High (25)
25RB
Middle (12)
25RB
Low (0)
50RB (0)
QPSK
Actual output
MPR
power (dBm)
23.62
23.69
23.62
23.54
23.68
23.75
23.66
23.67
23.62
22.54
22.60
22.55
22.65
22.59
22.61
22.61
22.61
22.68
22.59
22.66
22.59
16QAM
Actual output
MPR
power (dBm)
22.94
22.79
22.75
22.88
22.92
22.98
22.90
22.95
22.96
21.65
21.70
21.67
21.75
21.67
21.73
21.80
21.77
21.80
21.70
21.75
21.70
2312.5
2310
2307.5
2312.5
2310
2307.5
2312.5
2310
2307.5
2312.5
2310
2307.5
2312.5
2310
2307.5
2312.5
2310
2307.5
2312.5
2310
2307.5
Max. Target
Power
(dBm)
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
2310
24
24.00
22.96
2310
24
23.69
22.93
2310
24
23.98
23.00
2310
24
22.70
21.59
2310
24
22.67
21.66
2310
24
22.60
21.62
2310
24
22.72
21.59
Frequency
(MHz)
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 51 of 304
Band 41
Bandwidth
(MHz)
RB allocation
RB offset
(Start RB)
1RB
High (24)
1RB
Middle (12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle (6)
12RB
Low (0)
25RB
(0)
10 MHz
1RB
High (49)
QPSK
16QAM
Frequency
(MHz)
Max. Target
Power
(dBm)
Actual output
power (dBm)
MPR
Actual output
power (dBm)
MPR
2687.5
24
23.28
22.23
2640.3
24
23.19
22.28
2593
24
23.05
22.64
2545.8
24
23.08
22.19
2498.5
24
22.88
21.73
2687.5
24
23.14
22.20
2640.3
24
23.09
22.15
2593
24
23.02
22.72
2545.8
24
23.11
22.49
2498.5
24
22.59
21.79
2687.5
24
23.38
22.10
2640.3
24
23.44
22.14
2593
24
23.07
22.66
2545.8
24
23.01
22.21
2498.5
24
22.86
21.93
2687.5
24
22.08
20.77
2640.3
24
22.10
20.71
2593
24
22.02
20.82
2545.8
24
22.21
21.97
2498.5
24
22.05
21.13
2687.5
24
22.15
21.21
2640.3
24
22.17
21.75
2593
24
21.92
20.81
2545.8
24
22.20
21.33
2498.5
24
21.99
20.97
2687.5
24
22.14
21.27
2640.3
24
22.24
21.43
2593
24
21.89
20.96
2545.8
24
22.05
21.56
2498.5
24
21.83
20.73
2687.5
24
22.03
20.85
2640.3
24
22.07
20.64
2593
24
22.03
21.03
2545.8
24
22.51
21.49
2498.5
24
21.84
20.85
2685
24
23.31
21.96
2639
24
23.06
22.10
2593
24
23.30
22.08
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 52 of 304
1RB
Middle (24)
1RB
Low (0)
25RB
High (25)
25RB
Middle (12)
25RB
Low (0)
50RB
(0)
1RB
High (74)
15 MHz
1RB
Middle (37)
2547
24
23.16
22.25
2501
24
23.27
22.35
2685
24
23.28
22.32
2639
24
22.88
21.89
2593
24
22.99
22.19
2547
24
23.17
21.95
2501
24
23.10
21.87
2685
24
23.34
22.20
2639
24
23.15
22.13
2593
24
23.30
21.74
2547
24
23.05
22.02
2501
24
23.08
21.86
2685
24
22.05
21.04
2639
24
21.82
20.81
2593
24
22.05
21.01
2547
24
22.01
20.83
2501
24
22.16
21.03
2685
24
21.92
20.90
2639
24
21.80
20.81
2593
24
22.03
20.90
2547
24
21.84
20.75
2501
24
22.00
20.98
2685
24
21.86
20.83
2639
24
21.74
20.76
2593
24
21.86
20.75
2547
24
21.62
20.45
2501
24
21.87
20.82
2685
24
21.88
20.90
2639
24
21.84
20.83
2593
24
21.91
20.92
2547
24
21.94
20.77
2501
24
22.03
20.88
2682.5
24
22.89
22.02
2637.8
24
22.85
22.07
2593
24
23.27
22.39
2548.3
24
23.59
22.82
2503.5
24
23.84
22.81
2682.5
24
22.67
21.79
2637.8
24
22.77
21.91
2593
24
23.15
22.11
2548.3
24
23.40
22.63
2503.5
24
23.85
22.57
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 53 of 304
1RB
Low (0)
36RB
High (38)
36RB
Middle (19)
36RB
Low (0)
75RB
(0)
1RB
High (99)
1RB
Middle (50)
20 MHz
1RB
Low (0)
50RB
High (50)
2682.5
24
23.29
21.74
2637.8
24
22.99
21.96
2593
24
23.30
22.22
2548.3
24
23.56
22.75
2503.5
24
23.85
22.60
2682.5
24
21.84
20.79
2637.8
24
21.73
20.71
2593
24
22.13
21.18
2548.3
24
22.55
21.51
2503.5
24
22.57
21.63
2682.5
24
21.76
20.77
2637.8
24
21.62
20.69
2593
24
22.25
21.08
2548.3
24
22.50
21.41
2503.5
24
22.55
21.58
2682.5
24
21.81
20.71
2637.8
24
21.72
20.65
2593
24
21.99
21.00
2548.3
24
22.32
21.38
2503.5
24
22.57
21.67
2682.5
24
21.92
20.80
2637.8
24
21.86
20.79
2593
24
22.04
20.99
2548.3
24
22.34
21.43
2503.5
24
22.63
21.58
2680
24
22.97
21.79
2636.5
24
22.86
21.77
2593
24
23.19
22.18
2549.5
24
23.39
22.58
2506
24
23.27
22.45
2680
24
23.00
21.84
2636.5
24
22.84
21.72
2593
24
22.99
22.14
2549.5
24
23.34
22.64
2506
24
23.43
22.65
2680
24
22.70
21.77
2636.5
24
22.74
21.67
2593
24
23.17
21.93
2549.5
24
23.31
22.63
2506
24
23.39
22.49
2680
24
21.67
20.66
2636.5
24
21.67
20.62
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 54 of 304
50RB
Middle (25)
50RB
Low (0)
100RB
(0)
2593
24
21.93
20.93
2549.5
24
22.42
21.43
2506
24
22.65
21.59
2680
24
21.67
20.75
2636.5
24
21.59
20.72
2593
24
21.99
21.01
2549.5
24
22.38
21.39
2506
24
22.55
21.61
2680
24
21.60
20.65
2636.5
24
21.70
20.81
2593
24
21.93
20.98
2549.5
24
22.45
21.46
2506
24
22.54
21.54
2680
24
21.61
20.64
2636.5
24
21.66
20.67
2593
24
21.95
20.94
2549.5
24
22.36
21.39
2506
24
22.50
21.52
Low power
Table 11.3-2: The conducted Power for LTE
Band 2
RB
allocation
Bandwidth
(MHz)
RB offset
(Start
RB)
1RB
High (5)
1RB
Middle
(3)
1RB
Low (0)
1.4 MHz
3RB
High (3)
3RB
Middle
(1)
3RB
Low (0)
Frequency
(MHz)
Max.
Target
Power
(dBm)
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
1909.3
1880
1850.7
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
QPSK
Actual
output
power
(dBm)
20.19
20.06
20.24
20.23
20.26
20.31
20.22
20.22
20.29
20.21
20.17
20.30
20.27
20.25
20.33
20.25
20.17
20.35
16QAM
MPR
Actual
output
power
(dBm)
20.23
20.40
20.36
20.27
20.41
20.39
20.21
20.30
20.45
20.25
20.35
20.49
20.31
20.12
20.46
20.30
20.35
20.52
MPR
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 55 of 304
6RB
(0)
1RB
High (14)
1RB
Middle
(7)
1RB
Low (0)
3 MHz
8RB
High (7)
8RB
Middle
(4)
8RB
Low (0)
15RB
(0)
1RB
High (24)
1RB
Middle
(12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle
(6)
12RB
Low (0)
25RB
(0)
10 MHz
1RB
High (49)
1909.3
1880
1850.7
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
1908.5
1880
1851.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1907.5
1880
1852.5
1905
1880
1855
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
20.27
20.19
20.36
20.25
20.13
20.29
20.31
20.26
20.35
20.34
20.29
20.36
20.28
20.20
20.34
20.32
20.25
20.34
20.31
20.26
20.38
20.30
20.25
20.37
20.30
20.15
20.29
20.34
20.29
20.33
20.52
20.28
20.45
20.30
20.24
20.36
20.34
20.27
20.36
20.37
20.35
20.41
20.37
20.25
20.38
20.58
20.33
20.44
20.48
20.50
20.35
20.14
20.19
20.44
20.28
20.28
20.42
20.20
20.21
20.37
20.22
20.16
20.23
20.40
20.36
20.27
20.41
20.39
20.21
20.30
20.45
20.25
20.35
20.49
20.31
20.12
20.46
20.30
20.35
20.52
20.48
20.50
20.35
20.14
20.19
20.44
20.28
20.28
20.42
20.20
20.21
20.37
20.22
20.16
20.23
20.40
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 56 of 304
1RB
Middle
(24)
1RB
Low (0)
25RB
High (25)
25RB
Middle
(12)
25RB
Low (0)
50RB
(0)
1RB
High (74)
1RB
Middle
(37)
1RB
Low (0)
15 MHz
36RB
High (38)
36RB
Middle
(19)
36RB
Low (0)
75RB
(0)
1RB
High (99)
20 MHz
1RB
Middle
(50)
1RB
Low (0)
1905
1880
1855
1905
1880
1855
1905
1880
1855
1905
1880
1855
1905
1880
1855
1905
1880
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
20.49
20.24
20.23
20.40
20.34
20.35
20.42
20.13
20.29
20.26
20.24
20.25
20.30
20.17
20.31
20.38
20.26
20.36
20.27
20.41
20.39
20.21
20.30
20.45
20.25
20.35
20.49
20.31
20.12
20.46
20.30
20.35
20.52
20.48
1855
21
20.31
20.50
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1902.5
1880
1857.5
1900
1880
1860
1900
1880
1860
1900
1880
1860
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
20.62
20.36
20.44
20.24
20.15
20.10
20.50
20.36
20.51
20.38
20.10
20.31
20.30
20.18
20.34
20.29
20.15
20.33
20.39
20.21
20.28
20.39
20.15
20.18
20.32
20.20
20.20
20.42
20.39
20.31
20.35
20.14
20.19
20.44
20.28
20.28
20.42
20.20
20.21
20.37
20.22
20.16
20.23
20.40
20.36
20.27
20.41
20.39
20.21
20.30
20.45
20.25
20.35
20.49
20.31
20.12
20.46
20.30
20.35
20.52
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 57 of 304
50RB
High (50)
50RB
Middle
(25)
50RB
Low (0)
100RB
(0)
1900
1880
1860
1900
1880
1860
1900
1880
1860
1900
1880
1860
RB
allocation
Bandwidth
(MHz)
RB offset
(Start
RB)
1RB
High (5)
1RB
Middle
(3)
1RB
Low (0)
1.4 MHz
3RB
High (3)
3RB
Middle
(1)
3RB
Low (0)
6RB
(0)
1RB
High (14)
3 MHz
1RB
Middle
(7)
1RB
Low (0)
Frequency
(MHz)
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1754.3
1732.5
1710.7
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
21
21
21
21
21
21
21
21
21
21
21
21
Band 4
Max.
Target
Power
(dBm)
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
20.33
20.23
20.23
20.38
20.36
20.34
20.37
20.18
20.26
20.43
20.15
20.15
QPSK
Actual
output
power
(dBm)
21.42
21.32
21.43
21.46
21.43
21.46
21.47
21.42
21.45
21.40
21.37
21.42
21.54
21.36
21.52
21.43
21.36
21.47
21.43
21.35
21.45
21.43
21.25
21.46
21.46
21.42
21.56
21.54
21.36
21.52
20.48
20.50
20.35
20.14
20.19
20.44
20.28
20.28
20.42
20.20
20.21
20.37
16QAM
MPR
Actual
output
power
(dBm)
21.63
21.53
21.51
21.67
21.62
21.56
21.59
21.57
21.51
21.52
21.57
21.63
21.66
21.56
21.67
21.62
21.57
21.65
21.42
21.32
21.39
21.67
21.43
21.68
21.66
21.63
21.73
21.70
21.67
21.72
MPR
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 58 of 304
8RB
High (7)
8RB
Middle
(4)
8RB
Low (0)
15RB
(0)
1RB
High (24)
1RB
Middle
(12)
1RB
Low (0)
5 MHz
12RB
High (13)
12RB
Middle
(6)
12RB
Low (0)
25RB
(0)
1RB
High (49)
1RB
Middle
(24)
10 MHz
1RB
Low (0)
25RB
High (25)
25RB
Middle
(12)
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1753.5
1732.5
1711.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1752.5
1732.5
1712.5
1750
1732.5
1715
1750
1732.5
1715
1750
1732.5
1715
1750
1732.5
1715
1750
1732.5
1715
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
21.45
21.39
21.53
21.47
21.46
21.53
21.47
21.42
21.58
21.53
21.45
21.55
21.47
21.25
21.43
21.44
21.36
21.54
21.69
21.43
21.74
21.51
21.36
21.49
21.51
21.44
21.48
21.51
21.46
21.56
21.53
21.34
21.49
21.55
21.43
21.46
21.46
21.39
21.33
21.54
21.53
21.45
21.49
21.35
21.42
21.45
21.42
21.37
21.54
21.42
21.62
21.56
21.53
21.64
21.57
21.55
21.61
21.52
21.47
21.63
21.86
21.55
21.74
21.77
21.76
21.86
21.94
21.66
21.91
21.65
21.52
21.64
21.63
21.53
21.63
21.64
21.62
21.71
21.55
21.46
21.54
21.74
21.54
21.67
21.73
21.44
21.51
21.74
21.55
21.63
21.52
21.37
21.43
21.53
21.43
21.40
©Copyright. All rights reserved by CTTL.
No.I16Z42454-SEM01
Page 59 of 304
25RB
Low (0)
50RB
(0)
1RB
High (74)
1RB
Middle
(37)
1RB
Low (0)
15 MHz
36RB
High (38)
36RB
Middle
(19)
36RB
Low (0)
75RB
(0)
1RB
High (99)
1RB
Middle
(50)
1RB
Low (0)
20 MHz
50RB
High (50)
50RB
Middle
(25)
50RB
Low (0)
100RB
(0)
1750
1732.5
1715
1750
1732.5
1715
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1747.5
1732.5
1717.5
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
1745
1732.5
1720
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
21.45
21.31
21.36
21.51
21.44
21.46
21.65
21.54
21.51
21.37
21.24
21.21
21.58
21.53
21.58
21.49
21.26
21.45
21.47
21.33
21.45
21.49
21.32
21.40
21.56
21.36
21.41
21.43
21.33
21.13
21.42
21.28
21.32
21.55
21.46
21.58
21.49
21.30
21.22
21.52
21.37
21.35
21.48
21.26
21.38
21.57
21.30
21.33
21.52
21.36
21.44
21.55
21.42
21.47
21.85
21.71
21.58
21.47
21.48
21.49
21.71
21.55
21.74
21.55
21.36
21.42
21.57
21.34
21.54
21.50
21.35
21.45
21.58
21.42
21.43
21.53
21.26
21.36
21.52
21.53
21.55
21.76
21.63
21.64
21.57
21.32
21.31
21.62
21.34
21.39
21.48
21.32
21.44
21.55
21.32
21.32
©Copyright. All rights reserved by CTTL.
Download: N016 GSM Quad-band/HSPA-UMTS Six-band/LTE 19 band mobile phone RF Exposure Info EMF2001001 TCL Communication Ltd.
Mirror Download [FCC.gov]N016 GSM Quad-band/HSPA-UMTS Six-band/LTE 19 band mobile phone RF Exposure Info EMF2001001 TCL Communication Ltd.
Document ID3323491
Application IDggNcwb1rcW1ht5PXZj8ikw==
Document DescriptionI16Z42454-SEM01_SAR_Rev3_1-59
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize460.8kB (5759948 bits)
Date Submitted2017-03-20 00:00:00
Date Available2017-03-22 00:00:00
Creation Date2017-03-20 11:24:57
Producing SoftwareAdobe PDF Library 10.0
Document Lastmod2017-03-20 11:24:59
Document TitleEMF2001001
Document CreatorAcrobat PDFMaker 10.1 Word 版
Document Author: Qdy

Source Exif Data [exif.tools]:
File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.6
Linearized                      : No
Tagged PDF                      : Yes
XMP Toolkit                     : Adobe XMP Core 5.2-c001 63.139439, 2010/09/27-13:37:26
Modify Date                     : 2017:03:20 11:24:59+08:00
Create Date                     : 2017:03:20 11:24:57+08:00
Metadata Date                   : 2017:03:20 11:24:59+08:00
Creator Tool                    : Acrobat PDFMaker 10.1 Word 版
Format                          : application/pdf
Title                           : EMF2001001
Description                     : SAR测试报告模版
Creator                         : Qdy
Document ID                     : uuid:7cd28cf9-2ddb-4179-b008-2ead652da636
Instance ID                     : uuid:9e3b1279-3bfe-426e-be36-6c8278af5483
Producer                        : Adobe PDF Library 10.0
Page Count                      : 59
Author                          : Qdy
Subject                         : SAR测试报告模版