EMB1061 BLE module Test Report Shanghai MXCHIP Information Technology Co.,Ltd.

Shanghai MXCHIP Information Technology Co.,Ltd. BLE module

Page 1 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 2 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 3 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 4 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 5 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 6 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 7 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 8 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 9 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 10 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 11 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 12 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 13 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 14 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 15 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 16 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 17 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 18 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 19 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 20 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 21 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 22 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 23 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 24 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 25 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 26 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 27 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 28 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 29 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 30 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 31 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 32 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 33 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 34 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 35 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 36 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 37 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 38 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 39 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 40 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Page 41 of EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.

RF TEST
REPORT
Report No.: 18020638-FCC-R
Supersede Report No.: N/A
Applicant
Shanghai MXCHIP Information Technology Co., Ltd.
Product Name
BLE module
Main Model
EMB1061
Serial Model
EMB1061-P,EMB1061-E
Test Standard
FCC Part 15.247: 2017, ANSI C63.10: 2013
Test Date
June 22 to July 11, 2018
Issue Date
July 17, 2018
Test Result
Pass
Fail
Equipment complied with the specification
Equipment did not comply with the specification
Peter Wei
Test Engineer
Amos Xia
Engineer Reviewer
This test report may be reproduced in full only
Test result presented in this test report is applicable to the tested sample only
Issued by:
SIEMIC (Nanjing-China) Laboratories
2-1 Longcang Avenue Yuhua Economic and
Technology Development Park, Nanjing, China
Tel:+86(25)86730128/86730129 Fax:+86(25)86730127 Email: China@siemic.com.cn
Test Report No.
18020638-FCC-R
Page
2 of 41
Laboratories Introduction
SIEMIC, headquartered in the heart of Silicon Valley, with superior facilities in US and Asia, is one of the leading
independent testing and certification facilities providing customers with one-stop shop services for Compliance Testing
and Global Certifications.
In addition to testing and certification, SIEMIC provides initial design reviews and compliance management throughout a
project. Our extensive experience with China, Asia Pacific, North America, European, and International compliance
requirements, assures the fastest, most cost effective way to attain regulatory compliance for the global markets.
Accreditations for Conformity Assessment
Country/Region
Scope
USA
Canada
Taiwan
Hong Kong
Australia
Korea
Japan
Singapore
Europe
EMC, RF/Wireless, SAR, Telecom
EMC, RF/Wireless, SAR, Telecom
EMC, RF, Telecom, SAR, Safety
RF/Wireless, SAR, Telecom
EMC, RF, Telecom, SAR, Safety
EMI, EMS, RF, SAR, Telecom, Safety
EMI, RF/Wireless, SAR, Telecom
EMC, RF, SAR, Telecom
EMC, RF, SAR, Telecom, Safety
This page has been left blank intentionally.
Test Report No.
18020638-FCC-R
Page
3 of 41
Test Report No.
18020638-FCC-R
Page
4 of 41
CONTENTS
1.
REPORT REVISION HISTORY.......................................................................................................................................5
2.
CUSTOMER INFORMATION .........................................................................................................................................5
3.
TEST SITE INFORMATION ............................................................................................................................................5
4.
EQUIPMENT UNDER TEST (EUT) INFORMATION .........................................................................................................6
5.
TEST SUMMARY ..........................................................................................................................................................8
6.
MEASUREMENTS, EXAMINATION AND DERIVED RESULTS ........................................................................................9
6.1 RF EXPOSURE ................................................................................................................................................................9
6.2 ANTENNA REQUIREMENT ............................................................................................................................................. 10
6.3 DTS (6 DB) CHANNEL BANDWIDTH ............................................................................................................................... 11
6.4 MAXIMUM OUTPUT POWER .......................................................................................................................................... 13
6.5 POWER SPECTRAL DENSITY ........................................................................................................................................ 15
6.6 BAND-EDGE & UNWANTED EMISSIONS INTO NON-RESTRICTED FREQUENCY BANDS ................................................ 17
6.7 AC POWER LINE CONDUCTED EMISSIONS ................................................................................................................... 19
6.8 RADIATED EMISSIONS .................................................................................................................................................. 25
ANNEX A. TEST INSTRUMENT ........................................................................................................................................... 30
ANNEX B. EUT AND TEST SETUP PHOTOGRAPHS ........................................................................................................... 31
ANNEX C. TEST SETUP AND SUPPORTING EQUIPMENT ................................................................................................... 37
ANNEX D. USER MANUAL / BLOCK DIAGRAM / SCHEMATICS / PARTLIST ........................................................................ 40
ANNEX E. DECLARATION OF SIMILARITY ......................................................................................................................... 41
Test Report No.
18020638-FCC-R
Page
5 of 41
1. Report Revision History
Report No.
18020638-FCC-R
Report Version
NONE
Description
Original
Issue Date
July 17, 2018
2. Customer information
Applicant Name
Shanghai MXCHIP Information Technology Co., Ltd.
Applicant Add
9thFloor, No.5 Lane2145JinshaJiangRoad,Putuo District,ShangHai(200333)
Manufacturer
Shanghai MXCHIP Information Technology Co., Ltd.
Manufacturer Add
9thFloor, No.5 Lane2145JinshaJiangRoad,Putuo District,ShangHai(200333)
3. Test site information
Lab performing tests
Lab Address
FCC Test Site No.
IC Test Site No.
Test Software
SIEMIC (Nanjing-China) Laboratories
2-1 Longcang Avenue Yuhua Economic andTechnology Development Park, Nanjing,
China
694825
4842B-1
EZ_EMC
Test Report No.
18020638-FCC-R
Page
6 of 41
4. Equipment under Test (EUT) Information
Description of EUT:
BLE module
Main Model:
EMB1061
Serial Model:
EMB1061-P,EMB1061-E
Date EUT received:
June 20, 2018
Test Date(s):
June 22 to July 11, 2018
Output Max power
5.547 dBm
Antenna Gain:
2 dBi
Type of Modulation:
BLE: GFSK
RF Operating Frequency (ies):
BLE: 2402-2480 MHz
Number of Channels:
BLE: 40CH
Port:
N/A
Input Power:
3~3.6V
Trade Name :
MXCHIP
FCC ID:
P53-EMB1061
Test Report No.
18020638-FCC-R
Page
7 of 41
Operating channel list
Channel
Frequency(MHz)
Channel
Frequency(MHz)
Channel
Frequency(MHz)
00
01
02
03
04
05
06
07
08
09
10
11
12
13
2402
2404
2406
2408
2410
2412
2414
2416
2418
2420
2422
2424
2426
2428
14
15
16
17
18
19
20
21
22
23
24
25
26
27
2430
2432
2434
2436
2438
2440
2442
2444
2446
2448
2450
2452
2454
2456
28
29
30
31
32
33
34
35
36
37
38
39
2458
2460
2462
2464
2466
2468
2470
2472
2474
2476
2478
2480
Test Report No.
18020638-FCC-R
Page
8 of 41
5. Test Summary
The product was tested in accordance with the following specifications.
All testing has been performed according to below product classification:
FCC Rules
§ 15.247 (i), § 2.1091
§ 15.203
§ 15.247 (a)(2)
§ 15.247(b)(3)
§ 15.247(e)
§ 15.247(d)
§ 15.207 (a),
§ 15.205, § 15.209, § 15.247(d)
Description of Test
RF Exposure
Antenna Requirement
DTS (6 dB) CHANNEL BANDWIDTH
Conducted Maximum Output Power
Power Spectral Density
Band-Edge & Unwanted Emissions into Non-Restricted
Frequency Bands
AC Power Line Conducted Emissions
Radiated Spurious Emissions & Unwanted Emissions
into Restricted Frequency Bands
Result
Compliance
Compliance
Compliance
Compliance
Compliance
Compliance
Compliance
Compliance
Measurement Uncertainty
Test Item
Description
Uncertainty
Radiated Emissions
Confidence level of approximately 95% (in the case where
distributions are normal), with a coverage factor of 2 (for EUTs <
0.5m X 0.5m X 0.5m)
3.952dB
Test Report No.
18020638-FCC-R
Page
9 of 41
6. Measurements, Examination And Derived Results
6.1 RF Exposure
The EUT is a mobile device, thus requires RF exposure evaluation;
Please refer to SIEMIC RF Exposure Report: 18020638-FCC-H.
Test Report No.
18020638-FCC-R
Page
10 of 41
6.2 Antenna Requirement
Applicable Standard
According to § 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 user of a standard antenna jack or electrical connector
is prohibited. The structure and application of the EUT were analyzed to determine compliance with section § 15.203 of the rules.
§ 15.203 state that the subject device must meet the following criteria:
a. Antenna must be permanently attached to the unit.
b. Antenna must use a unique type of connector to attach to the EUT.
Unit must be professionally installed, and installer shall be responsible for verifying that the correct antenna is employed with the unit.
And according to FCC 47 CFR section 15.247 (b), if the transmitting antennas of directional gain greater than 6dBi are used, the
power shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi.
Antenna Connector Construction
The EUT has 2 antennas:
A permanently attached PCB antenna/External antenna for BLE, the gain is 2 dBi for BLE.
PCB antenna will permanently attached to the unit.
External antenna use a unique type of connector to attach to the unit.
Please see internal photos for details.
Result: Compliant.
Test Report No.
18020638-FCC-R
Page
11 of 41
6.3 DTS (6 dB) Channel Bandwidth
Temperature
Relative Humidity
Atmospheric Pressure
Test date :
Tested By :
Spec
§ 15.247(a)(2)
28oC
50%
1019mbar
June 22, 2018
Peter Wei
Item
a)
Requirement
6dB BW≥500kHz;
Applicable
b)
20dB BW: For FCC reference only; required by IC.
N/A
Test Setup
Spectrum Analyzer
EUT
558074 D01 DTS Meas Guidance V04, 8.1 DTS bandwidth
Test Procedure
6dB Emission bandwidth measurement procedure
- Set RBW = 100 kHz.
- Set the video bandwidth (VBW) ≥ 3 x RBW.
- Detector = Peak.
- Trace mode = max hold.
- Sweep = auto couple.
- Allow the trace to stabilize.
Measure the maximum width of the emission that is constrained by the frequencies
associated with the two outermost amplitude points (upper and lower frequencies)
that are attenuated by 6 dB relative to the maximum level measured in the
fundamental emission.
Remark
Result
Pass
Fail
Test Data
Yes
N/A
Test Plot
Yes (See below)
N/A
Test Report No.
18020638-FCC-R
Page
12 of 41
6dB Bandwidth measurement result
Type
6dB BW
Test mode
CH
Freq (MHz)
Result (MHz)
Limit (MHz)
Result
BLE
Low
Mid
High
2402
2440
2480
0.6880
0.6888
0.6966
≥0.5
≥0.5
≥0.5
Pass
Pass
Pass
Test Plots
6dB Bandwidth measurement result
6dB Bandwidth - Low CH 2402
6dB Bandwidth - High CH 2480
6dB Bandwidth - Mid CH 2440
Test Report No.
18020638-FCC-R
Page
13 of 41
6.4 Maximum Output Power
Temperature
Relative Humidity
Atmospheric Pressure
Test date :
Tested By :
28oC
50%
1019mbar
June 22, 2018
Peter Wei
Requirement(s):
Spec
§ 15.247(b) (2)
Item
a)
Requirement
FHSS in 2400-2483.5MHz with ≥ 75 channels: ≤1 Watt
b)
FHSS in 5725-5850MHz: ≤1 Watt
c)
For all other FHSS in the 2400-2483.5MHz band: ≤0.125 Watt.
d)
FHSS in 902-928MHz with ≥ 50 channels: ≤1 Watt
e)
FHSS in 902-928MHz with ≥ 25 & <50 channels: ≤0.25 Watt
f)
DSSS in 902-928MHz, 2400-2483.5MHz, 5725-5850MHz: ≤1 Watt
Test Setup
Spectrum Analyzer
Test Procedure
EUT
558074 D01 DTS Meas Guidance V04, 9.1.2 Integrated band power method
Maximum output power measurement procedure
a) Set the RBW ≥ DTS bandwidth.
b) Set VBW ≥ 3 × RBW.
c) Set span ≥ 3 x RBW
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.
Remark
Result
Pass
Fail
Test Data
Yes
N/A
Test Plot
Yes (See below)
N/A
Applicable
Test Report No.
18020638-FCC-R
Page
14 of 41
Output Power measurement result
Type
Test mode
CH
Freq (MHz)
Output
power
BLE
Low
Mid
High
2402
2440
2480
Conducted
Power (dBm)
4.839
5.121
5.547
Limit
(dBm)
30
30
30
Test Plots
Output Power measurement result
Output power - Low CH 2402
Output power - High CH 2480
Output power - Mid CH 2440
Result
Pass
Pass
Pass
Test Report No.
18020638-FCC-R
Page
15 of 41
6.5 Power Spectral Density
Temperature
Relative Humidity
Atmospheric Pressure
Test date :
Tested By :
Spec
28oC
50%
1019mbar
June 22, 2018
Peter Wei
Item
§ 15.247(e)
a)
Requirement
The power spectral density conducted from the intentional
radiator to the antenna shall not be greater than 8 dBm in any 3
kHz band during any time interval of continuous transmission.
Applicable
Test Setup
Spectrum Analyzer
Test Procedure
EUT
558074 D01 DTS MEAS Guidance V04, 10.2 power spectral density method
power spectral density measurement procedure
a) Set analyzer center frequency to DTS channel center frequency.
b) Set the span to 1.5 times the DTS bandwidth.
c) Set the RBW to: 3 kHz ≤ RBW ≤ 100 kHz.
d) Set the VBW ≥ 3 × RBW.
e) Detector = peak.
f) Sweep time = auto couple.
g) Trace mode = max hold.
h) Allow trace to fully stabilize.
i) Use the peak marker function to determine the maximum amplitude level within the
RBW.
j) If measured value exceeds limit, reduce RBW (no less than 3 kHz) and repeat.
Remark
Result
Pass
Fail
Result
Pass
Fail
Test Data
Yes
N/A
Test Report No.
18020638-FCC-R
Page
16 of 41
Power Spectral Density measurement result
Type
PSD
Test mode
CH
Freq (MHz)
BLE
Low
Mid
High
2402
2440
2480
PSD
(dBm)
-4.556
-5.388
-5.830
Limit (dBm)
Result
Pass
Pass
Pass
Test Plots
Power Spectral Density measurement result
PSD - Low CH 2402
PSD - High CH 2480
PSD - Mid CH 2440
Test Report No.
18020638-FCC-R
Page
17 of 41
6.6 Band-Edge & Unwanted Emissions into Non-Restricted Frequency Bands
Temperature
Relative Humidity
Atmospheric Pressure
Test date :
Tested By :
Requirement(s):
Spec
§ 15.247(d)
28oC
50%
1019mbar
July 11, 2018
Peter Wei
Item
a)
Requirement
Applicable
In any 100 kHz bandwidth outside the frequency band in which the
spread spectrum or digitally modulated intentional radiator is operating,
the radio frequency power that is produced by the intentional radiator
shall be at least 20 dB below that in the 100 kHz bandwidth within the
band that contains the highest level of the desired power, based on either
an RF conducted or a radiated measurement, provided the transmitter
demonstrates compliance with the peak conducted power limits.
Test Setup
Test Procedure
Radiated Method Only
- 1. Check the calibration of the measuring instrument using either an internal calibrator or a
known signal from an external generator.
- 2. Position the EUT without connection to measurement instrument. Put it on the Rotated table
and turn on the EUT and make it operate in transmitting mode. Then set it to Low Channel and
High Channel within its operating range, and make sure the instrument is operated in its linear
range.
- 3. First, set both RBW and VBW of spectrum analyzer to 100 kHz with a convenient frequency
span including 100kHz bandwidth from band edge, check the emission of EUT, if pass then set
Spectrum Analyzer as below:
a. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120 kHz
for Quasi Peak detection at frequency below 1GHz.
b. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is
3MHz for Peak detection at frequency above 1GHz.
c. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and the video bandwidth
for Average detection (AV) as below at frequency above 1GHz.
■1/T kHz (Duty cycle < 98%) □ 10 Hz (Duty cycle > 98%)
- 4. Measure the highest amplitude appearing on spectral display and set it as a reference level.
Plot the graph with marking the highest point and edge frequency.
- 5. Repeat above procedures until all measured frequencies were complete.
Remark
Result
Pass
Fail
Test Data
Yes
N/A
Test Plot
Yes (See below)
N/A
Test Plots
Test Report No.
18020638-FCC-R
Page
18 of 41
Band Edge measurement result
GFSK-Left Side
GFSK-Right Side
Test Report No.
18020638-FCC-R
Page
19 of 41
6.7 AC Power Line Conducted Emissions
Temperature
Relative Humidity
Atmospheric Pressure
Test date :
Tested By :
28oC
50%
1019mbar
July 03, 2018
Peter Wei
Requirement(s):
Spec
Item
Requirement
Applicable
For Low-power radio-frequency devices that is designed to be connected to the
public utility (AC) power line, the radio frequency voltage that is conducted back
onto the AC power line on any frequency or frequencies, within the band 150 kHz
to 30 MHz, shall not exceed the limits in the following table, as measured using a
50 [mu]H/50 ohms line impedance stabilization network (LISN). The lower limit
applies at the boundary between the frequencies ranges.
Class A Limit
47CFR§ 15.20
a)
Frequency ranges
(MHz)
0.15 ~ 0.5
0.5 ~ 30
Limit (dBµ V)
QP
79
73
Average
66
60
Class B Limit
Frequency ranges
(MHz)
0.15 ~ 0.5
0.5 ~ 5
5 ~ 30
Limit (dBµ V)
QP
66 – 56
56
60
Average
56 – 46
46
50
Test Setup
1.
Procedure
2.
3.
4.
5.
6.
7.
8.
The EUT and supporting equipment were set up in accordance with the requirements of the standard on
top of a 1.5m x 1m x 0.8m high, non-metallic table.
The power supply for the EUT was fed through a 50W/50mH EUT LISN, connected to filtered mains.
The RF OUT of the EUT LISN was connected to the EMI test receiver via a low-loss coaxial cable.
All other supporting equipment were powered separately from another main supply.
The EUT was switched on and allowed to warm up to its normal operating condition.
A scan was made on the NEUTRAL line (for AC mains) or Earth line (for DC power) over the required
frequency range using an EMI test receiver.
High peaks, relative to the limit line, The EMI test receiver was then tuned to the selected frequencies and
the necessary measurements made with a receiver bandwidth setting of 10 kHz.
Step 7 was then repeated for the LIVE line (for AC mains) or DC line (for DC power).
Remark
Result
Pass
Fail
Test Report No.
18020638-FCC-R
Page
20 of 41
Test Data
Yes
N/A
Test Plot
Yes (See below)
N/A
Data sample
No.
Frequency
(MHz)
Reading
(dBV)
Detector
Lisn/Isn
(dB)
Ps_Lmt
(dB)
Cab_L
(dB)
Result
(dBV)
Frequency (MHz) = Emission frequency in MHz
Reading (dBV) = Receiver Reading Value
Detector=Quasi Peak Detector or Average Detector
Lisn/ISN= Insertion loss of LISN
Ps_Lmt= Insertion loss of transient limiter (The transient limiter included 10dB attenuation)
Cab_L= cable loss
Result (dBV) = Reading Value + Corrected Value
Limit (dBV) = Limit stated in standard
Calculation Formula:
Margin (dB) = Result (dBV) – limit (dBV)
Limit
(dBV)
Margin
(dB)
Test Mode :
Test Report No.
18020638-FCC-R
Page
21 of 41
Low Channel
Test Data
Phase Line Plot at 120Vac, 60Hz
No.
Frequency
(MHz)
Reading
(dBuV)
Detector
Lisn/Isn
(dB)
Ps_Lmt
(dB)
Cab_L
(dB)
Result
(dBuV)
Limit
(dBuV)
Margin
(dB)
10
11
12
0.1500
0.1500
0.1820
0.1820
0.2820
0.2820
0.4260
0.4260
1.2100
1.2100
2.1740
2.1740
30.13
15.85
26.77
13.81
21.90
16.42
25.62
21.10
20.67
15.85
24.00
17.62
QP
AVG
QP
AVG
QP
AVG
QP
AVG
QP
AVG
QP
AVG
0.10
0.10
0.10
0.10
0.11
0.11
0.12
0.12
0.14
0.14
0.17
0.17
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
0.36
0.36
0.31
0.31
0.20
0.20
0.21
0.21
0.21
0.21
0.21
0.21
40.59
26.31
37.18
24.22
32.21
26.73
35.95
31.43
31.02
26.20
34.38
28.00
66.00
56.00
64.39
54.39
60.76
50.76
57.33
47.33
56.00
46.00
56.00
46.00
-25.41
-29.69
-27.21
-30.17
-28.55
-24.03
-21.38
-15.90
-24.98
-19.80
-21.62
-18.00
Test Mode :
Test Report No.
18020638-FCC-R
Page
22 of 41
Low Channel
Test Data
Phase Neutral Plot at 120Vac, 60Hz
No.
Frequency
(MHz)
Reading
(dBuV)
Detector
Lisn/Isn
(dB)
Ps_Lmt
(dB)
Cab_L
(dB)
Result
(dBuV)
Limit
(dBuV)
Margin
(dB)
10
11
12
0.1500
0.1500
0.2020
0.2020
0.3940
0.3940
0.8980
0.8980
1.3100
1.3100
2.1140
2.1140
30.44
18.40
24.56
16.85
25.46
22.95
21.41
15.86
20.73
14.87
25.17
20.72
QP
AVG
QP
AVG
QP
AVG
QP
AVG
QP
AVG
QP
AVG
0.11
0.11
0.10
0.10
0.11
0.11
0.13
0.13
0.14
0.14
0.17
0.17
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
0.36
0.36
0.28
0.28
0.21
0.21
0.19
0.19
0.21
0.21
0.20
0.20
40.91
28.87
34.94
27.23
35.78
33.27
31.73
26.18
31.08
25.22
35.54
31.09
66.00
56.00
63.53
53.53
57.98
47.98
56.00
46.00
56.00
46.00
56.00
46.00
-25.09
-27.13
-28.59
-26.30
-22.20
-14.71
-24.27
-19.82
-24.92
-20.78
-20.46
-14.91
Test Mode :
Test Report No.
18020638-FCC-R
Page
23 of 41
Low Channel
Test Data
Phase Line Plot at 230Vac, 50Hz
No.
Frequency
(MHz)
Reading
(dBuV)
Detector
Lisn/Isn
(dB)
Ps_Lmt
(dB)
Cab_L
(dB)
Result
(dBuV)
Limit
(dBuV)
Margin
(dB)
10
11
12
0.1500
0.1500
0.1860
0.1860
0.4180
0.4180
1.2860
1.2860
1.6100
1.6100
2.0540
2.0540
35.16
18.23
29.62
15.48
27.10
25.09
21.17
16.81
20.62
16.73
25.58
22.07
QP
AVG
QP
AVG
QP
AVG
QP
AVG
QP
AVG
QP
AVG
0.10
0.10
0.10
0.10
0.11
0.11
0.15
0.15
0.15
0.15
0.16
0.16
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
0.36
0.36
0.30
0.30
0.21
0.21
0.21
0.21
0.20
0.20
0.19
0.19
45.62
28.69
40.02
25.88
37.42
35.41
31.53
27.17
30.97
27.08
35.93
32.42
66.00
56.00
64.21
54.21
57.49
47.49
56.00
46.00
56.00
46.00
56.00
46.00
-20.38
-27.31
-24.19
-28.33
-20.07
-12.08
-24.47
-18.83
-25.03
-18.92
-20.07
-13.58
Test Mode :
Test Report No.
18020638-FCC-R
Page
24 of 41
Low Channel
Test Data
Phase Neutral Plot at 230Vac, 50Hz
No.
Frequency
(MHz)
Reading
(dBuV)
Detector
Lisn/Isn
(dB)
Ps_Lmt
(dB)
Cab_L
(dB)
Result
(dBuV)
Limit
(dBuV)
Margin
(dB)
10
11
12
0.1540
0.1540
0.2580
0.2580
0.5500
0.5500
0.8980
0.8980
1.3820
1.3820
2.0980
2.0980
34.24
17.27
24.32
17.64
19.54
13.61
19.38
13.03
22.24
17.50
24.74
20.22
QP
AVG
QP
AVG
QP
AVG
QP
AVG
QP
AVG
QP
AVG
0.11
0.11
0.10
0.10
0.11
0.11
0.13
0.13
0.15
0.15
0.17
0.17
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
-10.00
0.35
0.35
0.20
0.20
0.21
0.21
0.19
0.19
0.20
0.20
0.20
0.20
44.70
27.73
34.62
27.94
29.86
23.93
29.70
23.35
32.59
27.85
35.11
30.59
65.78
55.78
61.50
51.50
56.00
46.00
56.00
46.00
56.00
46.00
56.00
46.00
-21.08
-28.05
-26.88
-23.56
-26.14
-22.07
-26.30
-22.65
-23.41
-18.15
-20.89
-15.41
Test Report No.
18020638-FCC-R
Page
25 of 41
6.8 Radiated Emissions
Temperature
Relative Humidity
Atmospheric Pressure
Test date :
Tested By :
28oC
50%
1019mbar
July 11, 2018
Peter Wei
Requirement(s):
Spec
Item
Requirement
Applicable
Except higher limit as specified elsewhere in other section, the emissions from
the low-power radio-frequency devices shall not exceed the field strength levels
specified in the following table and the level of any unwanted emissions shall not
exceed the level of the fundamental emission. The tighter limit applies at the
band edges
Class A Limit
47CFR§ 15.20
9(d)
a)
Frequency range (MHz)
30 – 88
88 – 216
216 – 960
Above 960
Field Strength (µ V/m)
90
150
210
300
Class B Limit
Frequency range (MHz)
30 – 88
88 – 216
216 – 960
Above 960
Field Strength (µ V/m)
100
150
200
500
Test Setup
1.
2.
Procedure
3.
4.
The EUT was switched on and allowed to warm up to its normal operating condition.
The test was carried out at the selected frequency points obtained from the EUT characterization.
Maximization of the emissions, was carried out by rotating the EUT, changing the antenna polarization,
and adjusting the antenna height in the following manner:
a.
Vertical or horizontal polarization (whichever gave the higher emission level over a full rotation
of the EUT) was chosen.
b.
The EUT was then rotated to the direction that gave the maximum
emission.
c.
Finally, the antenna height was adjusted to the height that gave the maximum emission.
The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120 kHz for Quasiy
Peak detection at frequency below 1GHz.
The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz with
Peak detection for Peak measurement at frequency above 1GHz.
The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and the video bandwidth with Peak
Test Report No.
18020638-FCC-R
Page
26 of 41
detection for Average Measurement as below at frequency above 1GHz.
■1/T kHz (Duty cycle < 98%) □ 10 Hz (Duty cycle > 98%)
Steps 2 and 3 were repeated for the next frequency point, until all selected frequency points were
measured.
5.
Remark
Result
Pass
Fail
Test Data
Yes
N/A
Test Plot
Yes (See below)
N/A
Data sample
No.
Frequency
(MHz)
Reading
(dBV/m)
Detector
Ant_F
(dB/m)
PA_G
(dB)
Frequency (MHz) = Emission frequency in MHz
Reading (dBV/m) = Receiver Reading Value
Detector= Peak Detector or Quasi Peak Detector
Ant_F=Antenna Factor
PA_G=Pre-Amplifier Gain
Cab_L=Cable Loss
Result (dBV/m) = Read ing Value + Corrected Value
Limit (dBV/m) = Limit stated in standard
Height (cm) = Height of Receiver antenna
Degree = Turn table degree
Calculation Formula:
Margin (dB) = Result (dBV/m) – limit (dBV/m)
Cab_L
(dB)
Result
(dBV/m)
Limit
(dBV/m)
Margin
(dB)
Height
(cm)
Degree
(° )
Test Mode :
Test Report No.
18020638-FCC-R
Page
27 of 41
Low Channel
Below 1GHz
Test Data
Horizontal Polarity Plot @3m
No.
Frequency
(MHz)
Reading
(dBuV/m)
Detector
Ant_F
(dB/m)
PA_G
(dB)
Cab_L
(dB)
Result
(dBuV/m)
Limit
(dBuV/m)
Margin
(dB)
Height
(cm)
Degree
(° )
229.2931
601.4265
71.8320
59.6493
167.8243
119.4361
42.52
28.76
35.06
32.43
34.63
28.78
peak
peak
peak
peak
peak
peak
11.69
19.12
7.76
7.34
11.97
13.80
22.33
21.58
22.39
22.41
22.26
22.36
1.63
2.49
0.97
0.75
1.37
1.16
33.51
28.79
21.40
18.11
25.71
21.38
46.00
46.00
40.00
40.00
43.50
43.50
-12.49
-17.21
-18.60
-21.89
-17.79
-22.12
100
100
100
100
100
100
199
355
150
325
21
248
Test Mode :
Test Report No.
18020638-FCC-R
Page
28 of 41
Low Channel
Below 1GHz
Test Data
Vertical Polarity Plot @3m
No.
Frequency
(MHz)
Reading
(dBuV/m)
Detector
Ant_F
(dB/m)
PA_G
(dB)
Cab_L
(dB)
Result
(dBuV/m)
Limit
(dBuV/m)
Margin
(dB)
Height
(cm)
Degree
(° )
83.5222
229.2931
150.0108
467.2349
59.6493
32.2925
32.48
37.88
29.31
30.75
33.71
27.21
peak
peak
peak
peak
peak
peak
7.74
11.69
12.60
17.04
7.34
19.63
22.38
22.33
22.34
21.88
22.41
22.27
1.06
1.63
1.34
2.23
0.75
0.68
18.90
28.87
20.91
28.14
19.39
25.25
40.00
46.00
43.50
46.00
40.00
40.00
-21.10
-17.13
-22.59
-17.86
-20.61
-14.75
100
200
100
100
100
100
68
139
130
127
326
97
Test Mode :
Test Report No.
18020638-FCC-R
Page
29 of 41
Low Channel
Above 1GHz
Low Channel
Cord.
Limit
Margin
Loss
(dB)
PreAmp.
Gain
(dB)
Amp.
(dBµ V/m)
(dBµ V/m)
(dB)
33.39
33.39
33.39
33.39
39.23
39.23
39.23
39.23
7.22
7.22
7.22
7.22
10.54
10.54
10.54
10.54
48.46
48.46
48.46
48.46
46.51
46.51
46.51
46.51
34.6
33.96
50.88
51.41
33.13
27.53
47.88
51.78
54
54
74
74
54
54
74
74
-19.4
-20.04
-23.12
-22.59
-20.87
-26.47
-26.12
-22.22
Polarity
Ant.
Cable
(PK/AV)
(H/V)
Factor
(dB/m)
43.43
47.43
63.67
61.64
27.32
28.76
45.9
49.56
AV
AV
PK
PK
AV
AV
PK
PK
Frequency
S.A.
Detector
(MHz)
Reading
(dBµ V)
4880
4880
4880
4880
9183
9183
9183
9183
43.43
47.43
63.67
61.64
27.32
28.76
45.9
49.56
Frequency
S.A.
Detector
Polarity
Ant.
Cable
(MHz)
Reading
(dBµ V)
(PK/AV)
(H/V)
Factor
(dB/m)
4804
4804
4804
4804
10313
10313
10313
10313
42.45
41.81
58.73
59.26
29.87
24.27
44.62
48.52
AV
AV
PK
PK
AV
AV
PK
PK
Frequency
S.A.
Detector
(MHz)
Reading
(dBµ V)
4880
4880
4880
4880
9183
9183
9183
9183
Middle Channel
Cord.
Limit
Margin
Loss
(dB)
PreAmp.
Gain
(dB)
Amp.
(dBµ V/m)
(dBµ V/m)
(dB)
33.62
33.62
33.62
33.62
38.14
38.14
38.14
38.14
7.53
7.53
7.53
7.53
8.94
8.94
8.94
8.94
48.36
48.36
48.36
48.36
47.72
47.72
47.72
47.72
36.22
40.22
56.46
54.43
26.68
28.12
45.26
48.92
54
54
74
74
54
54
74
74
-17.78
-13.78
-17.54
-19.57
-27.32
-25.88
-28.74
-25.08
Polarity
Ant.
Cable
(PK/AV)
(H/V)
Factor
(dB/m)
AV
AV
PK
PK
AV
AV
PK
PK
33.62
33.62
33.62
33.62
38.14
38.14
38.14
38.14
High Channel
Cord.
Limit
Margin
Loss
(dB)
PreAmp.
Gain
(dB)
Amp.
(dBµ V/m)
(dBµ V/m)
(dB)
7.53
7.53
7.53
7.53
8.94
8.94
8.94
8.94
48.36
48.36
48.36
48.36
47.72
47.72
47.72
47.72
36.22
40.22
56.46
54.43
26.68
28.12
45.26
48.92
54
54
74
74
54
54
74
74
-17.78
-13.78
-17.54
-19.57
-27.32
-25.88
-28.74
-25.08
Note1: The frequency that above 3GHz is mainly from the environment noise.
Note2: The AV measurement performed, more than 20dB below limit so AV test data was not presented.
Test Report No.
18020638-FCC-R
Page
30 of 41
Annex A. TEST INSTRUMENT
Instrument
Model
Serial #
Cal Date
Cal Due
AC Line Conducted
Emissions
R&S EMI Test Receiver
V-LISN
INFOMW Antenna
(1 ~18GHz)
SIEMIC Labview Conducted
Emissions software
ESPI3
ESH3-Z5
JXTXLB10180
101216
838979/005
04/26/2018
04/26/2018
04/25/2019
04/25/2019
J2031081120092
05/19/2018
05/18/2019
V1.0
N/A
N/A
N/A
ESPI3
N9010A
101216
MY47191130
04/26/2018
04/26/2018
04/25/2019
04/25/2019
N9010A
ESPI3
MY47191130
101216
04/26/2018
04/26/2018
04/25/2019
04/25/2019
JB6
A121411
05/19/2018
05/18/2019
RF Conducted Test
R&S EMI Receiver
Spectrum Analyzer
Radiated Emissions
Spectrum Analyzer
R&S EMI Receiver
Antenna (30MHz~6GHz)
EMCO Horn Antenna
(1 ~18GHz)
INFOMW Antenna
(1 ~18GHz)
3115
N/A
04/26/2018
04/25/2019
JXTXLB10180
J2031081120092
04/26/2018
04/25/2019
Hp Pre-Amplifier
8447F
1937A01160
04/26/2018
04/25/2019
SIEMIC Labview Radiated
Emissions software
V1.0
N/A
N/A
N/A
In use
Test Report No.
18020638-FCC-R
Page
31 of 41
Annex B. EUT And Test Setup Photographs
Annex B.i. Photograph: EUT External Photo
External
Antenna
EUT(External Antenna) - Front View
EUT(External Antenna) - Bottom View
Test Report No.
18020638-FCC-R
Page
32 of 41
Internal
Antenna
EUT(Internal Antenna) - Front View
EUT(Internal Antenna) - Bottom View
Test Report No.
18020638-FCC-R
Page
33 of 41
Annex B.ii. Photograph: EUT Internal Photo
EUT(External Antenna) Uncover - Front View
EUT(Internal Antenna) Uncover - Front View
Annex B.iii.
Test Report No.
18020638-FCC-R
Page
34 of 41
Photograph: Test Setup Photo
Conducted Emissions Test Setup Front View
Conducted Emissions Test Setup Side View
Test Report No.
18020638-FCC-R
Page
35 of 41
Radiated Spurious Emissions Test Setup Below 1GHz
Test Report No.
18020638-FCC-R
Page
36 of 41
Radiated Spurious Emissions Test Setup Above 1GHz
Test Report No.
18020638-FCC-R
Page
37 of 41
Annex C. TEST SETUP AND SUPPORTING EQUIPMENT
Annex C.i.
TEST SET UP BLOCK
Block Configuration Diagram for Conducted Emissions
LISN
120V 60Hz/230V
50Hz
Adapter
Laptop
EUT
Test Table
80cm above
ground plane
Test Report No.
18020638-FCC-R
Page
38 of 41
Block Configuration Diagram for Radiated Emissions
Adapter
Laptop
EUT
Test Table
80cm above
ground plane
d=3meter
Receiving Antenna
Annex C. ii.
Test Report No.
18020638-FCC-R
Page
39 of 41
SUPPORTING EQUIPMENT DESCRIPTION
The following is a description of supporting equipment and details of cables used with the EUT.
Manufacturer
Equipment Description
Model
Serial No
DELL
Laptop
DSCM
N/A
Test Report No.
18020638-FCC-R
Page
40 of 41
Annex D. User Manual / Block Diagram / Schematics / Partlist
Please see attachment
Test Report No.
18020638-FCC-R
Page
41 of 41
Annex E. DECLARATION OF SIMILARITY
Download: EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Mirror Download [FCC.gov]EMB1061 BLE module Test Report  Shanghai MXCHIP Information Technology Co.,Ltd.
Document ID3959151
Application IDOcVkeQKb5G1hDyHXIrhZeQ==
Document DescriptionRF Test Report
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeTest Report
Display FormatAdobe Acrobat PDF - pdf
Filesize225.61kB (2820138 bits)
Date Submitted2018-08-10 00:00:00
Date Available2018-08-10 00:00:00
Creation Date2018-08-07 17:09:45
Producing SoftwareMicrosoft® Word 2013
Document Lastmod2018-08-07 17:10:04
Document TitleTEST REPORT
Document CreatorMicrosoft® Word 2013
Document Author: Dan Coronia

Source Exif Data [exif.tools]:
File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.6
Linearized                      : No
Author                          : Dan Coronia
Create Date                     : 2018:08:07 17:09:45+08:00
Modify Date                     : 2018:08:07 17:10:04+08:00
Language                        : zh-CN
Tagged PDF                      : Yes
XMP Toolkit                     : Adobe XMP Core 4.2.1-c041 52.342996, 2008/05/07-20:48:00
Format                          : application/pdf
Creator                         : Dan Coronia
Title                           : TEST REPORT
Creator Tool                    : Microsoft® Word 2013
Metadata Date                   : 2018:08:07 17:10:04+08:00
Producer                        : Microsoft® Word 2013
Document ID                     : uuid:7cf6bf6f-0a71-4d2c-90c4-637a83e2702b
Instance ID                     : uuid:ce2c5151-b48a-4b46-ba81-186fba00257c
Page Count                      : 41