M809L LTE Mobile Phone Test Report CTTL english report Meizu Technology Co., Ltd.

Meizu Technology Co., Ltd. LTE Mobile Phone

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FCC PART 15C
TEST REPORT
No. I18N00288-BLE
for
Meizu Technology Co., Ltd.
LTE Mobile Phone
M809L
with
Hardware Version: V1.0
Software Version: Meizu 8.1.1.0G version
FCC ID: 2ANQ6-M809L
Issued Date: 2018-05-03
Designation Number: CN1210
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 SAICT.
Test Laboratory:
Shenzhen Academy of Information and Communications Technology
Building G, Shenzhen International Innovation Center, No.1006 Shennan Road, Futian District,
Shenzhen, Guangdong, P. R. China 518026.
Tel: +86(0)755-33322000, Fax: +86(0)755-33322001, Email:yewu@caict.ac.cn.www.cszit.com
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No. I18N00288-BLE
Page 2 of 35
REPORT HISTORY
Report Number
Revision
Description
Issue Date
I18N00288-BLE
Rev.0
1st edition
2018-05-03
Note: According to client's description, No test needs to been performed. All results are cited from
the initial model. The report number for initial model is and I18N00176-BLE.
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No. I18N00288-BLE
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CONTENTS
CONTENTS .................................................................................................................................................. 3
1.
TEST LABORATORY ......................................................................................................................... 4
1.1.
1.2.
1.3.
1.4.
2.
CLIENT INFORMATION ................................................................................................................... 5
2.1.
2.2.
3.
ABOUT EUT .................................................................................................................................... 6
INTERNAL IDENTIFICATION OF EUT ................................................................................................ 6
INTERNAL IDENTIFICATION OF AE ................................................................................................... 6
GENERAL DESCRIPTION ................................................................................................................... 6
REFERENCE DOCUMENTS ............................................................................................................. 7
4.1.
4.2.
5.
APPLICANT INFORMATION ............................................................................................................... 5
MANUFACTURER INFORMATION ...................................................................................................... 5
EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) ............................. 6
3.1.
3.2.
3.3.
3.4.
4.
TESTING LOCATION ......................................................................................................................... 4
TESTING ENVIRONMENT .................................................................................................................. 4
PROJECT DATA ................................................................................................................................. 4
SIGNATURE ...................................................................................................................................... 4
DOCUMENTS SUPPLIED BY APPLICANT ............................................................................................ 7
REFERENCE DOCUMENTS FOR TESTING ........................................................................................... 7
TEST RESULTS ................................................................................................................................... 8
5.1.
5.2.
5.3.
5.4.
SUMMARY OF TEST RESULTS ........................................................................................................... 8
STATEMENTS .................................................................................................................................... 8
TERMS USED IN THE RESULT TABLE ................................................................................................. 8
LABORATORY ENVIRONMENT .......................................................................................................... 9
6.
TEST FACILITIES UTILIZED ........................................................................................................ 10
7.
MEASUREMENT UNCERTAINTY .................................................................................................11
ANNEX A: DETAILED TEST RESULTS ................................................................................................ 12
A.0 ANTENNA REQUIREMENT .................................................................................................................... 12
A.1 MAXIMUM PEAK OUTPUT POWER ...................................................................................................... 13
A.2 PEAK POWER SPECTRAL DENSITY ...................................................................................................... 14
A.3 6DB BANDWIDTH................................................................................................................................ 16
A.4 BAND EDGES COMPLIANCE ................................................................................................................ 18
A.5 TRANSMITTER SPURIOUS EMISSION - CONDUCTED ............................................................................ 20
A.6 TRANSMITTER SPURIOUS EMISSION - RADIATED ................................................................................ 26
A.7 AC POWER LINE CONDUCTED EMISSION ............................................................................................ 33
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S孟 IC.T 型嚣5瞎
No. I 18N00288-BLE
Page 4 of 35
。 。
1. Test Lab rat rv
1.1. Testina Location
Location:
Shenzhen Academy of Info『mation and Communications Technology
Address:
Building G, Shenzhen International Innovation Center, N .1006
Shennan Road, Futian District, Shenzhen, Guangdong Province ,China
Postal Code: 518026
+86(0)755-33322000
Telephone:
+86(0)755-33322001
Fax:
。
1.2. Testina Environment
Normal Temperature:
15-30℃
Relative Humidity:
35-60%
1.3. Proiect da恒
Testing Start Date:
Testing End Date:
2018-02-26
2018-03-09
1.4. Sianature
二E全生
An Ran
(Prepa『ed this test rep。此}
何饭
Tang Weisheng
(Reviewed this test rep。同}
-
才向 比
(Approved this test report)
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No. I18N00288-BLE
Page 5 of 35
2. Client Information
2.1. Applicant Information
Company Name:
Address:
Contact Person
E-Mail
Telephone:
Fax:
Meizu Technology Co., Ltd.
Meizu Tech Bldg., Technology&Innovation Coast, Zhuhai,
Guangdong Province, China
Sally
shenling@meizu.com
+86-0756-6116256
2.2. Manufacturer Information
Company Name:
Address:
Contact Person
E-Mail
Telephone:
Fax:
Meizu Technology Co., Ltd.
Meizu Tech Bldg., Technology&Innovation Coast, Zhuhai,
Guangdong Province, China
Sally
shenling@meizu.com
+86-0756-6116256
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No. I18N00288-BLE
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3. Equipment Under Test (EUT) and Ancillary Equipment (AE)
3.1. About EUT
Description
Model Name
Market Name
Frequency Range
Type of Modulation
Number of Channels
Antenna Type
Antenna Gain
Power Supply
FCC ID
LTE Mobile Phone
M809L
2400MHz~2483.5MHz
GFSK
40
Integrated
-2.0dBi
3.85V DC by Battery
2ANQ6-M809L
Note: Components list, please refer to documents of the manufacturer.
3.2. Internal Identification of EUT
EUT ID*
EUT1
IMEI
HW Version
V1.0
SW Version
Meizu 8.1.1.0G version
Receive Date
2018-02-12
*EUT ID: is used to identify the test sample in the lab internally.
3.3. Internal Identification of AE
AE ID*
AE1
AE2
Description
Battery
USB POWER ADAPTER
Mode
BA810
UP0520A
Manufacturer
Salcomp(Shenzhen)Co., Ltd
*AE ID: is used to identify the test sample in the lab internally.
3.4. General Description
The Equipment Under Test (EUT) is a model of Mobile Phone with integrated antenna.
It consists of normal options: travel charger, USB cable.
Manual and specifications of the EUT were provided to fulfil the test.
Samples undergoing test were selected by the client.
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No. I18N00288-BLE
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4. Reference Documents
4.1. Documents supplied by applicant
EUT feature information is supplied by the applicant or manufacturer, which is the basis of testing.
4.2. Reference Documents for testing
The following documents listed in this section are referred for testing.
Reference
Title
FCC Part15
FCC CFR 47, Part 15, Subpart C:
15.205 Restricted bands of operation;
15.209 Radiated emission limits, general requirements;
15.247 Operation within the bands 902–928MHz, 2400–2483.5
MHz, and 5725–5850 MHz
ANSI C63.10
American National Standard of Procedures for Compliance
Testing of Unlicensed Wireless Devices
GUIDANCE
FOR
PERFORMING
COMPLIANCE
KDB 558074
MEASUREMENTS ON DIGITAL TRANSMISSION SYSTEMS
(DTS) OPERATING UNDER SECTION 15.247
Version
2016
2013
D01 v04
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No. I18N00288-BLE
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5. Test Results
5.1. Summary of Test Results
No
Test cases
Sub-clause of
Part 15C
Verdict
15.203
Antenna Requirement
Maximum Peak Output Power
15.247 (b)
Peak Power Spectral Density
15.247 (e)
Occupied 6dB Bandwidth
15.247 (a)
Band Edges Compliance
15.247 (d)
Transmitter Spurious Emission Conducted
15.247 (d)
Transmitter Spurious Emission Radiated
15.247, 15.205,
15.209
AC Powerline Conducted Emission
15.107, 15.207
See ANNEX A for details.
5.2. Statements
SAICT has evaluated the test cases requested by the applicant/manufacturer as listed in section
5.1 of this report, for the EUT specified in section 3, according to the standards or reference
documents listed in section 4.2.
5.3. Terms used in the result table
Terms used in Verdict column
Pass
NA
Not Available
Fail
Abbreviations
AC
Alternating Current
AFH
Adaptive Frequency Hopping
BW
Band Width
E.I.R.P.
equivalent isotropic radiated power
ISM
Industrial, Scientific and Medical
R&TTE
Radio and Telecommunications Terminal Equipment
RF
Radio Frequency
Tx
Transmitter
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5.4. Laboratory Environment
Semi-anechoic chamber did not exceed following limits along the EMC testing
Temperature
Min. = 15 ℃, Max. = 30 ℃
Relative humidity
Min. = 35 %, Max. = 60 %
Shielding effectiveness
0.014MHz - 1MHz, >60dB;
1MHz - 1000MHz, >90dB.
Electrical insulation
> 2 MΩ
Ground system resistance
Normalised site attenuation (NSA)
< 4Ω
< ±4dB, 3m/10m distance, from 30 to 1000 MHz
Uniformity of field strength
Between 0 and 6 dB, from 80 to 3000 MHz
Shielded room did not exceed following limits along the EMC testing
Temperature
Min. = 15 ℃, Max. = 30 ℃
Relative humidity
Min. = 35 %, Max. = 60 %
Shielding effectiveness
0.014MHz - 1MHz, >60dB;
1MHz - 1000MHz, >90dB.
Electrical insulation
> 2 MΩ
Ground system resistance
< 4 Ω
Fully-anechoic chamber did not exceed following limits along the EMC testing
Temperature
Min. = 15 ℃, Max. = 30 ℃
Relative humidity
Min. = 35 %, Max. = 60 %
Shielding effectiveness
0.014MHz - 1MHz, >60dB;
1MHz - 1000MHz, >90dB.
Electrical insulation
> 2 MΩ
Ground system resistance
< 4Ω
≤6dB, from 1 to 18 GHz,3m distance
Voltage Standing Wave Ratio
(VSWR)
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6. Test Facilities Utilized
Conducted test system
No.
Equipment
Model
Serial
Number
Manufacturer
Calibration
Due date
Calibration
Period
Vector Signal
Analyzer
FSV40
100903
Rohde & Schwarz
2019.01.17
1 year
Test Receiver
ESCI
100702
Rohde & Schwarz
2018.06.25
1 year
LISN
ENV216
102067
Rohde & Schwarz
2018.07.19
1 year
Radiated emission test system
No.
Equipment
Model
Serial
Number
Manufacturer
Calibration
Due date
Calibration
Period
Chamber
FACT3-2.0
1285
ETS-Lindgren
2019.11.27
3 years
Test Receiver
ESR7
101676
Rohde & Schwarz
2018.11.29
1 year
Spectrum Analyser
FSV40
102192
Rohde & Schwarz
2018.05.22
1 year
BiLog Antenna
VULB9163
9163 329
Schwarzbeck
2020.02.27
3 years
Horn Antenna
3117
00066577
ETS-Lindgren
2019.04.05
3 years
Loop Antenna
HLA6120
35779
TESEQ
2019.05.02
3 years
Horn Antenna
QSH-SL-18-26S-20
17013
Q-par
2020.01.15
3 years
Test software
No.
Equipment
Manufacturer
Version
TechMgr Software
CAICT
2.1.1
EMC32
Rohde & Schwarz
8.53.0
EMC32
Rohde & Schwarz
10.01.00
EUT is engineering software provided by the customer to control the transmitting signal. The EUT
was programmed to be in continuously transmitting mode.
Anechoic chamber
Fully anechoic chamber by ETS-Lindgren
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7. Measurement Uncertainty
Test Name
Uncertainty
1. RF Output Power - Conducted
±1.32dB
2.Power Spectral Density - Conducted
±2.32dB
3.Occupied channel bandwidth - Conducted
±66Hz
4 Transmitter Spurious Emission - Conducted
5. Transmitter Spurious Emission - Radiated
6. AC Power line Conducted Emission
30MHz≤f≤1GHz
±1.41dB
1GHz≤f≤7GHz
±1.92dB
7GHz≤f≤13GHz
±2.31dB
13GHz≤f≤26GHz
±2.61dB
9kHz≤f≤30MHz
±1.84dB
30MHz≤f≤1GHz
±4.90dB
1GHz≤f≤18GHz
±5.32dB
18GHz≤f≤40GHz
±4.66dB
150kHz≤f≤30MHz
±2.72dB
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No. I18N00288-BLE
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ANNEX A: Detailed Test Results
A.0 Antenna requirement
Measurement Limit:
Standard
Requirement
FCC CRF Part
15.203
An intentional radiator shall be designed to ensure that no antenna other than that
furnished by the responsible party shall be used with the device. The use of a
permanently attached antenna or of an antenna that uses a unique coupling to the
intentional radiator shall be considered sufficient to comply with the provisions of
this section. The manufacturer may design the unit so that a broken antenna can
be replaced by the user, but the use of a standard antenna jack or electrical
connector is prohibited. This requirement does not apply to carrier current devices
or to devices operated under the provisions of §15.211, §15.213, §15.217,
§15.219, or §15.221. Further, this requirement does not apply to intentional
radiators that must be professionally installed, such as perimeter protection
systems and some field disturbance sensors, or to other intentional radiators
which, in accordance with §15.31(d), must be measured at the installation site.
However, the installer shall be responsible for ensuring that the proper antenna is
employed so that the limits in this part are not exceeded.
Conclusion: The Directional gains of antenna used for transmitting is -2.0 dBi.
The RF transmitter uses an integrate antenna without connector.
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No. I18N00288-BLE
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A.1 Maximum Peak Output Power
Method of Measurement: See ANSI C63.10-clause 11.9.1.1
Use the following spectrum analyzer settings:
a) Set the RBW = 1 MHz.
b) Set VBW = 3 MHz.
c) Set span = 3 MHz.
d) Sweep time = auto couple.
e) Detector = peak.
f) Trace mode = max hold.
g) Allow trace to fully stabilize.
h) Use peak marker function to determine the peak amplitude level.
Measurement Limit:
Standard
Limit (dBm)
FCC 47 CRF Part 15.247(b) &
RSS-247 section 5.4
< 30
Measurement Results:
Mode
GFSK
Frequency (MHz)
Peak Conducted Output Power(dBm) Conclusion
2402(CH0)
1.55
2440(CH19)
1.38
2480(CH39)
1.25
Conclusion: Pass
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A.2 Peak Power Spectral Density
Method of Measurement: See ANSI C63.10-clause 11.10.2
Measurement Limit:
Standard
Limit
FCC 47 CRF Part 15.247(e) &
RSS-247 section 5.2
< 8 dBm/3 kHz
Measurement Results:
Mode
GFSK
Frequency (MHz)
Peak Power Spectral Density(dBm) Conclusion
2402(CH0)
Fig.1
2440(CH19)
Fig.2
2480(CH39)
Fig.3
-13.58
-13.76
-13.82
See below for test graphs.
Conclusion: PASS
Fig.1
Power Spectral Density (Ch 0)
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No. I18N00288-BLE
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Fig.2
Power Spectral Density (Ch 19)
Fig.3
Power Spectral Density (Ch 39)
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A.3 6dB Bandwidth
Measurement Limit:
Standard
Limit (kHz)
FCC 47 CFR Part 15.247 (a) &
RSS-247 section 5.2
≥ 500
Measurement Result:
Mode
GFSK
Frequency (MHz)
Test Results ( kHz)
2402(CH0)
Fig.4
2440(CH19)
Fig.5
2480(CH39)
Fig.6
689.00
690.50
693.00
Conclusion
See below for test graphs.
Conclusion: PASS
Fig.4
6dB Bandwidth (Ch 0)
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Fig.5
6dB Bandwidth (Ch 19)
Fig.6
6dB Bandwidth (Ch 39)
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No. I18N00288-BLE
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A.4 Band Edges Compliance
Measurement Limit:
Standard
Limit (dBc)
FCC 47 CFR Part 15.247 (d) &
RSS-247 section 5.5
> 20
Measurement Result:
Mode
GFSK
Frequency (MHz)
Test Results
Conclusion
2402(CH0)
Fig.7
-37.47
2480(CH39)
Fig.8
-61.62
See below for test graphs.
Conclusion: Pass
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No. I18N00288-BLE
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Fig.7
Band Edges (Ch 0)
Fig.8
Band Edges (Ch 39)
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No. I18N00288-BLE
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A.5 Transmitter Spurious Emission - Conducted
Measurement Limit:
Standard
Limit
FCC 47 CFR Part 15.247 (d) &
RSS-247 5.5/RSS-Gen section 6.13
20dB below peak output power in 100 kHz
bandwidth
Measurement Results:
MODE
Channel
19
GFSK
39
All channels
Frequency Range
Test Results
Conclusion
2.402 GHz
Fig.9
1GHz -3GHz
Fig.10
3GHz-10GHz
Fig.11
2.440 GHz
Fig.12
1GHz -3GHz
Fig.13
3GHz-10GHz
Fig.14
2.480 GHz
Fig.15
1GHz -3GHz
Fig.16
3GHz-10GHz
Fig.17
30MHz-1GHz
Fig.18
10GHz-26GHz
Fig.19
See below for test graphs.
Conclusion: Pass
Fig.9
Conducted Spurious Emission (Ch0, Center Frequency)
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Fig.10
Conducted Spurious Emission (Ch0, 1 GHz-3 GHz)
Fig.11
Conducted Spurious Emission (Ch0, 3 GHz-10 GHz)
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Fig.12
Conducted Spurious Emission (Ch19, Center Frequency)
Fig.13
Conducted Spurious Emission (Ch19, 1 GHz-3 GHz)
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No. I18N00288-BLE
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Fig.14
Fig.15
Conducted Spurious Emission (Ch19, 3 GHz-10 GHz)
Conducted Spurious Emission (Ch39, Center Frequency)
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Fig.16
Conducted Spurious Emission (Ch39, 1 GHz-3 GHz)
Fig.17
Conducted Spurious Emission (Ch39, 3 GHz-10 GHz)
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No. I18N00288-BLE
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Fig.18
Conducted Spurious Emission (All channels, 30 MHz-1 GHz)
Fig.19
Conducted Spurious Emission (All channels, 10 GHz-26 GHz)
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A.6 Transmitter Spurious Emission - Radiated
Measurement Limit:
Standard
Limit
FCC 47 CFR Part 15.247, 15.205, 15.209 &
RSS-247 section 5.5/RSS-Gen section 6.13
20dB below peak output power
In addition, radiated emissions which fall in the restricted bands, as defined in § 15.205(a),
must also comply with the radiated emission limits specified in § 15.209(a) (see § 15.205(c)).
Limit in restricted band:
Frequency of emission
(MHz)
Field strength(µV/m)
Measurement
distance(meters)
0.009-0.490
2400/F(kHz)
300
0.490-1.705
24000/F(kHz)
30
1.705-30.0
30
30
30-88
100
88-216
150
216-960
200
Above 960
500
Test Condition:
The EUT was placed on a non-conductive table. The measurement antenna was placed at a
distance of 3 meters from the EUT. During the tests, the antenna height and the EUT azimuth
were varied in order to identify the maximum level of emissions from the EUT. This maximization
process was repeated with the EUT positioned in each of its three orthogonal orientations.
Frequency of emission
(MHz)
RBW/VBW
Sweep Time(s)
30-1000
120kHz/300kHz
1000-4000
1MHz/3MHz
15
4000-18000
1MHz/3MHz
40
18000-26500
1MHz/3MHz
20
Note: According to the performance evaluation, the radiated emission margin of EUT is over 20dB
in the band from 9kHz to 30MHz.Therefore, the measurement starts from 30MHz to tenth
harmonic. The measurement results include the horizontal polarization and vertical polarization
measurements.
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Measurement Results:
1 GHz ~18 GHz
Fig.20
9 kHz ~30 MHz
Fig.21
30 MHz ~1 GHz
Fig.22
1 GHz ~18 GHz
Fig.23
18 GHz~ 26.5 GHz
Fig.24
1 GHz ~18 GHz
Fig.25
Restricted Band(CH0)
2.38 GHz ~ 2.45 GHz
Fig.26
Restricted Band(CH39)
2.45 GHz ~ 2.5 GHz
Fig.27
19
GFSK
39
GFSK CH0 (1-18GHz)
Frequency
(MHz)
13869.500000
MaxPeak
(dBuV/m)
55.87
Limit
(dBuV/m)
74.00
Margin
(dB)
18.13
Corr.
(dB)
20.1
14579.000000
56.74
74.00
17.26
21.3
15545.000000
60.36
74.00
13.64
23.1
16031.000000
61.77
74.00
12.23
24.8
17139.500000
62.47
74.00
11.53
26.7
17709.500000
63.64
74.00
10.36
27.7
Frequency
(MHz)
13910.500000
Average
(dBuV/m)
44.91
Limit
(dBuV/m)
54.00
Margin
(dB)
9.09
14681.000000
45.20
54.00
15576.000000
49.07
15927.000000
Pol
Corr.
(dB)
21.1
8.80
21.5
54.00
4.93
23.8
50.27
54.00
3.73
24.8
16585.000000
51.18
54.00
2.82
26.4
17701.500000
51.10
54.00
2.90
27.5
Limit
(dBuV/m)
74.00
Margin
(dB)
17.37
GFSK CH19 (1-18GHz)
Frequency
Average
(MHz)
(dBuV/m)
13905.500000
56.63
Pol
Corr.
(dB)
20.9
Pol
14688.000000
57.69
74.00
16.31
21.6
15252.000000
60.32
74.00
13.68
23.1
16188.500000
62.29
74.00
11.71
25.2
16583.000000
62.54
74.00
11.46
26.4
17718.000000
62.50
74.00
11.50
27.7
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No. I18N00288-BLE
Page 28 of 35
Frequency
(MHz)
13911.000000
Average
(dBuV/m)
44.83
Limit
(dBuV/m)
54.00
Margin
(dB)
9.17
Corr.
(dB)
21.1
14663.500000
45.26
54.00
8.74
21.3
15577.000000
49.00
54.00
5.00
23.8
15942.000000
50.36
54.00
3.64
24.9
16585.000000
51.14
54.00
2.86
26.4
17717.500000
50.92
54.00
3.08
27.7
Frequency
(MHz)
13807.000000
Average
(dBuV/m)
56.39
Limit
(dBuV/m)
74.00
Margin
(dB)
17.61
14709.000000
56.60
74.00
15542.000000
60.69
15969.500000
Pol
GFSK CH39 (1-18GHz)
Corr.
(dB)
19.7
17.40
21.4
74.00
13.31
22.9
62.16
74.00
11.84
25.6
16605.500000
63.20
74.00
10.80
26.1
17712.500000
63.15
74.00
10.85
27.7
Frequency
(MHz)
13911.000000
Average
(dBuV/m)
44.99
Limit
(dBuV/m)
54.00
Margin
(dB)
9.01
14681.000000
45.28
54.00
15575.500000
48.99
15927.500000
Pol
Corr.
(dB)
21.1
8.72
21.5
54.00
5.01
23.8
50.35
54.00
3.65
24.8
17141.000000
51.12
54.00
2.88
26.7
17708.000000
51.00
54.00
3.00
27.6
Pol
Note:
A "reference path loss" is established and the A Rpl is the attenuation of “reference path loss”, and
Antenna Factor, the gain of the preamplifier, the cable loss. P Mea is the field strength recorded from
the instrument.
The measurement results are obtained as described below:
Result= P Mea +Cable Loss +Antenna Factor-Gain of the preamplifier.
See below for test graphs.
Conclusion: Pass
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No. I18N00288-BLE
Page 29 of 35
80
FCC PART 15 _PK
70
Level in dB礦/m
60
FCC PART 15_AVG
50
40
30
20
10
1G
2G
3G
4G
5G
10G
18G
Frequency in Hz
Fig.20
Radiated Spurious Emission (GFSK, Ch0, 1 GHz ~18 GHz)
Fig.21
Radiated Spurious Emission (Ch19, 9 kHz-30 MHz)
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No. I18N00288-BLE
Page 30 of 35
Fig.22
Radiated Spurious Emission (Ch19, 30 MHz-1 GHz)
90
85
80
FCC PART 15 _PK
75
70
Level in dB礦/m
65
60
FCC PART 15_AVG
55
50
45
40
35
30
25
20
1G
2G
3G
4G
5G
10G
18G
Frequency in Hz
Fig.23
Radiated Spurious Emission (Ch19, 1 GHz- 18 GHz)
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No. I18N00288-BLE
Page 31 of 35
Fig.24
Radiated Spurious Emission (Ch19, 18 GHz-26.5 GHz)
90
85
80
FCC PART 15 _PK
75
70
Level in dB礦/m
65
60
FCC PART 15_AVG
55
50
45
40
35
30
25
20
1G
2G
3G
4G
5G
10G
18G
Frequency in Hz
Fig.25
Radiated Spurious Emission (Ch39, 1 GHz-18 GHz)
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No. I18N00288-BLE
Page 32 of 35
90
85
80
FCC 75
PART 15 2GHz _PK
Level in dB礦/m
70
65
60
FCC PART
55 15 2GHz _AVG
50
45
40
35
30
2380
2390
2400
2410
2420
2430
Frequency in MHz
Fig.26
Radiated Band Edges (GFSK, Ch0, 2380GHz~2450GHz)
90
85
80
FCC Part 15 2GHz_PK
75
Level in dB礦/m
70
65
60
FCC Part 15 2GHz_AVG
55
50
45
40
35
30
2450
2460
2470
2480
2490
2500
Frequency in MHz
Fig.27
Radiated Band Edges (GFSK, Ch39, 2450GHz~2500GHz)
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No. I18N00288-BLE
Page 33 of 35
A.7 AC Power line Conducted Emission
Test Condition:
Voltage(V)
Frequency(Hz)
120
60
Measurement Result and limit:
BLE (Quasi-peak Limit)
Frequency range
(MHz)
Limit (dBµV)
0.15 to 0.5
66 to 56
0.5 to 5
56
5 to 30
60
Quasi-peak
Result (dBµV)
Traffic
Fig.28
Conclusion
Idle
Fig.29
NOTE: The limit decreases linearly with the logarithm of the frequency in the range
0.15 MHz to 0.5 MHz.
BLE (Average Limit)
Frequency range Average-peak
(MHz)
Limit (dBµV)
0.15 to 0.5
56 to 46
0.5 to 5
46
5 to 30
50
Result (dBµV)
Traffic
Idle
Fig 31
Fig 32
Conclusion
NOTE: The limit decreases linearly with the logarithm of the frequency in the range
0.15 MHz to 0.5 MHz.
Note: The measurement results include the L1 and N measurements.
See below for test graphs.
Conclusion: Pass
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No. I18N00288-BLE
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Fig.28
AC Powerline Conducted Emission (Traffic)
Measurement Results: Quasi Peak
Frequency
(MHz)
Quasi Peak
(dBµV)
Limit
(dBµV)
Margin
(dB)
Line
Filter
Corr.
(dB)
0.238000
42.78
62.17
19.38
ON
9.6
0.402000
42.74
57.81
15.07
L1
ON
9.7
0.550000
43.67
56.00
12.33
ON
9.7
0.754000
40.41
56.00
15.59
L1
ON
9.7
2.110000
35.88
56.00
20.12
L1
ON
9.7
2.202000
35.42
56.00
20.58
L1
ON
9.7
Measurement Results : Average
Frequency
(MHz)
Average
(dBµV)
Limit
(dBµV)
Margin
(dB)
Line
Filter
Corr.
(dB)
0.390000
27.97
48.06
20.09
ON
9.6
0.594000
33.14
46.00
12.86
ON
9.7
0.970000
26.39
46.00
19.61
ON
9.7
2.114000
25.74
46.00
20.26
ON
9.7
2.354000
26.49
46.00
19.51
ON
9.7
4.614000
21.88
46.00
24.12
ON
9.7
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No. I18N00288-BLE
Page 35 of 35
Fig.29
AC Power line Conducted Emission (Idle)
Measurement Results: Quasi Peak
Frequency
(MHz)
Quasi Peak
(dBµV)
Limit
(dBµV)
Margin
(dB)
Line
Filter
Corr.
(dB)
0.234000
41.85
62.31
20.46
L1
ON
9.7
0.398000
43.33
57.90
14.56
L1
ON
9.7
0.546000
43.94
56.00
12.06
L1
ON
9.7
0.754000
40.23
56.00
15.77
L1
ON
9.7
2.086000
35.17
56.00
20.83
L1
ON
9.7
2.154000
35.78
56.00
20.22
L1
ON
9.7
Limit
(dBµV)
Margin
(dB)
Line
Filter
Corr.
(dB)
Measurement Results : Average
Frequency
Average
(MHz)
(dBµV)
0.398000
27.41
47.90
20.48
L1
ON
9.7
0.594000
33.08
46.00
12.92
ON
9.7
0.806000
27.45
46.00
18.55
ON
9.7
2.110000
25.60
46.00
20.40
ON
9.7
2.290000
26.63
46.00
19.37
ON
9.7
4.618000
21.86
46.00
24.14
ON
9.7
***END OF REPORT***
©Copyright. All rights reserved by SAICT
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