MBP70SN Smart Touchless Forehead Thermometer Test Report Date of Type Binatone Electronics International Ltd.

Binatone Electronics International Ltd. Smart Touchless Forehead Thermometer

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2/F., Garment Centre,
576 Castle Peak Road, Kowloon,
Hong Kong.
Telephone:
(852) 2173 8888
Facsimile:
(852) 2785 5487
www.intertek.com
TEST REPORT
Report Number: 17050111HKG‐001
Application for Original Grant of 47 CFR Part 15 Certification
Single New of RSS‐247 Issue 2 Equipment
FCC ID: VLJ‐MBP70SN
IC: 4522A‐MBP70SN
PREPARED AND CHECKED BY:
APPROVED BY:
Digitally signed
by Koo Wai Ip
Location: Intertek
Testing Services
Hong Kong Ltd.
Signed On File
Yao Xin Lu, Josie
Engineer
Koo Wai Ip
Technical Supervisor
Date: June 06, 2017
Intertek’s standard Terms and Conditions can be obtained at our website http://www.intertek.com/terms/.
The test report only allows to be revised within the retention period unless further standard or the requirement was noticed
This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited
to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or
damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek
name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results
in this report are relevant only to the sample tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification
program.
© 2017 Intertek
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Intertek Report: No:
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TEST REPORT
GENERAL INFORMATION
Applicant Name:
Applicant Address:
FCC Specification Standard:
FCC ID:
FCC Model(s):
IC Specification Standard:
IC:
PMN:
HVIN:
Type of EUT:
Description of EUT:
Serial Number:
Sample Receipt Date:
Date of Test:
Report Date:
Environmental Conditions:
Binatone Electronics International Limited
Floor 23A, 9 Des Voeux Road West,
Sheung Wan, Hong Kong.
FCC Part 15, October 1, 2015 Edition
VLJ‐MBP70SN
MBP70SN
RSS‐247 Issue 2, February 2017
RSS‐Gen Issue 4, November 2014
4522A‐MBP70SN
Smart Touchless Forehead Thermometer
MBP70SN,
Spread Spectrum Transmitter
Transceiver
Smart Touchless Forehead Thermometer
N/A
May 18, 2017
June 14, 2017 to June 23, 2017
June 06, 2017
Temperature: +10 to 40°C
Humidity: 10 to 90%
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Intertek Report: No:
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TEST REPORT
TABLE OF CONTENTS
1.0 Test Results Summary & Statement of Compliance.................................................................. 4
1.1 Summary of Test Results ........................................................................................................ 4
1.2 Statement of Compliance ....................................................................................................... 4
2.0 General Description................................................................................................................... 5
2.1 Product Description ............................................................................................................... 5
2.2 Test Methodology................................................................................................................... 5
2.3 Test Facility ............................................................................................................................. 5
2.4 Related Submittal(s) Grants .................................................................................................... 5
3.0 System Test Configuration......................................................................................................... 6
3.1 Justification............................................................................................................................. 6
3.2 EUT Exercising Software.......................................................................................................... 6
3.3 Details of EUT and Description of Accessories......................................................................... 7
3.4 Measurement Uncertainty...................................................................................................... 7
4.0 Test Results................................................................................................................................ 8
4.1 Maximum Conducted Output Power at Antenna Terminals ................................................... 8
4.2 Minimum 6dB RF Bandwidth .................................................................................................. 9
4.3 Maximum Power Spectral Density ........................................................................................ 12
4.4 Out of Band Conducted Emissions ........................................................................................ 15
4.5 Field Strength Calculation ..................................................................................................... 19
4.6 Transmitter Radiated Emissions in Restricted Bands and Spurious Emissions ....................... 20
4.6.1 Radiated Emission Configuration Photograph.................................................................... 20
4.6.2 Radiated Emission Data...................................................................................................... 20
4.6.3 Radiated Emission Test Setup ............................................................................................ 25
4.6.4 Transmitter Duty Cycle Calculation .................................................................................... 26
5.0 Equipment List......................................................................................................................... 27
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EXHIBIT 1
TEST RESULTS SUMMARY & STATEMENT OF COMPLIANCE
1.0 TEST RESULTS SUMMARY & STATEMENT OF COMPLIANCE
1.1 Summary of Test Results
TEST ITEMS
Antenna Requirement
Max. Conducted Output Power
(Peak)
Min. 6dB RF Bandwidth
Max. Power Density (average)
Out of Band Antenna Conducted
Emission
Radiated Emission in Restricted
Bands and Spurious Emissions
15.203
RSS‐247/
RSS‐GEN#
SECTION
8.3#
Pass
DETAILS
SEE
SECTION
2.1
15.247(b)(3)&(4)
5.4(4)
Pass
4.1
15.247(a)(2)
15.247(e)
5.2(1)
5.2(2)
Pass
Pass
4.2
4.3
15.247(d)
5.5
Pass
4.4
15.247(d), 15.209 &
15.109
5.5
Pass
4.6
FCC PART 15
SECTION
RESULTS
Note: Pursuant to FCC Part 15 Section 15.215(c), the 20dB bandwidth of the emission was contained
within the frequency band designated (mentioned as above) which the EUT operated. The effects,
if any, from frequency sweeping, frequency hopping, other modulation techniques and frequency
stability over expected variations in temperature and supply voltage were considered.
1.2
Statement of Compliance
The equipment under test is found to be complying with the following standard:
FCC Part 15, October 1, 2015 Edition
RSS‐247 Issue 2, February 2017
RSS‐Gen Issue 4, November 2014
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EXHIBIT 2
GENERAL DESCRIPTION
2.0 GENERAL DESCRIPTION
2.1 Product Description
The MBP70SN is a Smart Touchless Forehead Thermometer.
The Equipment Under Test (EUT) is a Bluetooth Smart Touchless Forehead Thermometer. The EUT can
only support Bluetooth 4.1 BLE that occupies a frequency range of 2402MHz to 2480MHz (40 channels
with channel spacing of 2MHz). The EUT is powered by 3VDC (2 X size “AAA” batteries).
The antenna(s) used in the EUT is integral, and the test sample is a prototype.
The circuit description is saved with filename: descri.pdf.
2.2
Test Methodology
Radiated emission measurements were performed according to the procedures in ANSI C63.10 (2013).
Preliminary radiated scans and all radiated measurements were performed in radiated emission test sites.
All Radiated tests were performed at an antenna to EUT distance of 3 meters, unless stated otherwise in
the "Justification Section" of this Application. Antenna port conducted measurements were performed
according to ANSI C63.10 (2013) and KDB Publication No.558074 D01 v04 (05‐April‐2017) All other
measurements were made in accordance with the procedures in 47 CFR Part 2 and RSS‐Gen Issue 4
(2014).
2.3
Test Facility
The radiated emission test site and antenna port conducted measurement facility used to collect the
radiated data is located at Workshop No.10‐1 Mingkeda Logistics Park, No.18 Huanguan South RD. Guan
lan Town, Baoan Distr, Shenzhen, Guangdong, China. This test facility and site measurement data have
been fully placed on file with the FCC and Industry Canada. The FCC Registration Number is 441872, IC
Registration Number is 2324I‐2.
2.4
Related Submittal(s) Grants
This is a single application for certification of a transceiver (Bluetooth 4.1 BLE portion)
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EXHIBIT 3
SYSTEM TEST CONFIGURATION
3.0 SYSTEM TEST CONFIGURATION
3.1
Justification
For radiated emissions testing, the equipment under test (EUT) was setup to transmit / receive
continuously to simplify the measurement methodology. Care was taken to ensure proper power supply
voltages during testing. During testing, all cables (if any) were manipulated to produce worst case
emissions.
The EUT was powered by 3.0VDC (2 X size “AAA” batteries).
For the measurements, the EUT was attached to a plastic stand if necessary and placed on the wooden
turntable. If the base unit attached to peripherals, they were connected and operational (as typical as
possible).
The signal was maximized through rotation and placement in the three orthogonal axes. The antenna
height and polarization were varied during the search for maximum signal level. The antenna height was
varied from 1 to 4 meters. Radiated emissions were taken at three meters unless the signal level was too
low for measurement at that distance. If necessary, a pre‐amplifier was used and/or the test was
conducted at a closer distance.
Radiated emission measurement for transmitter were performed from the lowest radio frequency signal
generated in the device which is greater than 9 kHz to the tenth harmonic of the highest fundamental
frequency or to 40 GHz, whichever is lower.
Emission that are directly caused by digital circuits in the transmit path and transmitter portion were
measured, and the limit are according to FCC Part 15 Section 15.209. Digital circuitries used to control
additional functions other than the operation of the transmitter are subject to FCC Part 15 Section 15.109.
3.1
EUT Exercising Software
The EUT exercise program (if any) used during radiated and conducted testing was designed to exercise
the various system components in a manner similar to a typical use.
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3.2
Details of EUT and Description of Accessories
Details of EUT:
The EUT was powered by 3.0VDC (2 X size “AAA” batteries).
Description of Accessories:
There are no accessories for compliance of this product.
3.3
Measurement Uncertainty
When determining of the test conclusion, the Measurement Uncertainty of test at a level of confidence of
95% has been considered. The values of the Measurement uncertainty for radiated emission test and RF
conducted measurement test are  5.3dB and 0.99dB respectively. The value of the Measurement
uncertainty for conducted emission test is ±3.3dB.
Uncertainty and Compliance ‐ Unless the standard specifically states that measured values are to be
extended by the measurement uncertainty in determining compliance, all compliance determinations are
based on the actual measured value.
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EXHIBIT 4
TEST RESULTS
4.0 TEST RESULTS
4.1
Maximum Conducted (peak) Output Power at Antenna Terminals
RF Conduct Measurement Test Setup
The figure below shows the test setup, which is utilized to make these measurements.
Power meter
Power Sensor
EUT
The antenna power of the EUT was connected to the input of a power meter. Power was read
directly and cable loss correction was added to the reading to the obtain power at the EUT
antenna terminals. The measurement procedure 9.1.3 of KDB558074 D01 v04 (05‐April‐2017)
was used.
The EUT should be configured to transmit continuously (at a minimum duty cycle of 98%) at
full power over the measurement duration. The measurement procedure AVG1 was used.
Frequency (MHz)
Low Channel:
2402
GFSK Antenna Gain = 0 dBi
Output in dBm
‐1.12
Output in mWatt
0.77
Middle Channel:
2440
‐1.37
0.73
High Channel:
2480
‐1.51
0.71
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4.2 Minimum 6dB RF Bandwidth
The antenna port of the EUT was connected to the input of a spectrum analyzer.
The EBW
measurement procedure of KDB558074 D01 v04 (05‐April‐2017) was used. A PEAK output reading was
taken, a DISPLAY line was drawn 6dB lower than PEAK level. The 6dB bandwidth was determined from
where the channel output spectrum intersected the display line.
GFSK
Frequency (MHz)
6dB Bandwidth (MHz)
Low Channel:
2402
0.6704
Middle Channel:
2440
0.6689
High Channel:
2480
0.6719
Limits
6 dB bandwidth shall be at least 500kHz
The plots of 6dB RF bandwidth are saved as below.
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PLOTS OF 6dB RF BANDWIDTH
Lowest Channel
Middle Channel
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PLOTS OF 6dB RF BANDWIDTH
Highest Channel
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TEST REPORT
4.3 Maximum Power Spectral Density
Antenna output of the EUT was coupled directly to spectrum analyzer. The measurement procedure 10.2
PKPSD‐1 of KDB558074 D01 v04 (05‐April‐2017) was used. If an external attenuator and/or cable was
used, these losses are compensated for using the OFFSET function of the analyser.
Frequency (MHz)
Low Channel:
2402
IEEE 802.11b (DSSS, 1 Mbps)
PSD in 3kHz (dBm)
‐20.542
Middle Channel:
2440
‐20.791
High Channel:
2480
‐21.044
Cable Loss:
1.5 dB
Limit:
8dBm
The plots of power spectral density are as below.
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PLOTS OF POWER SPECTRAL DENSITY
Lowest channel
Middle channel
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PLOTS OF POWER SPECTRAL DENSITY
Highest channel
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4.4 Out of Band Conducted Emissions
For GFSK, the maximum conducted (peak) output power was used to demonstrate compliance as
described in 9.1. Then the display line (in red) shown in the following plots denotes the limit at 20dB
below maximum measured in‐band peak PSD level in 100 KHz bandwidth for GFSK.
The measurement procedures under sections 11 of KDB558074 D01 v04 (05‐April‐2017) were used.
Furthermore, delta measurement technique for measuring bandedge emissions was incorporated in the
test of the edge at 2483.5MHz.
Limits:
All spurious emission and up to the tenth harmonic was measured and they were found to be at least for
GFSK below the maximum measured in‐band peak PSD level.
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PLOTS OF OUT OF BAND CONDUCTED EMISSIONS
Lowest Channel, Plot A
Lowest Channel, Plot B
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PLOTS OF OUT OF BAND CONDUCTED EMISSIONS
Middle Channel, Plot A
Middle Channel, Plot B
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PLOTS OF OUT OF BAND CONDUCTED EMISSIONS
Highest Channel, Plot A
Highest Channel, Plot B
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4.5 Field Strength Calculation
The field strength is calculated by adding the reading on the Spectrum Analyzer to the factors associated
with preamplifiers (if any), antennas, cables, pulse desensitization and average factors (when specified
limit is in average and measurements are made with peak detectors). A sample calculation is included
below.
FS = RA + AF + CF ‐ AG + PD + AV
Where FS = Field Strength in dBV/m
RA = Receiver Amplitude (including preamplifier) in dBV
CF = Cable Attenuation Factor in dB
AF = Antenna Factor in dB
AG = Amplifier Gain in dB
PD = Pulse Desensitization in dB
AV = Average Factor in ‐dB
In the radiated emission table which follows, the reading shown on the data table may reflect the
preamplifier gain. An example of the calculations, where the reading does not reflect the preamplifier
gain, follows:
FS = RA + AF + CF ‐ AG + PD + AV
Example
Assume a receiver reading of 62.0 dBV is obtained. The antenna factor of 7.4 dB and cable factor of 1.6
dB is added. The amplifier gain of 29.0 dB is subtracted. The pulse desensitization factor of the spectrum
analyzer is 0.0 dB, and the resultant average factor is ‐10.0 dB. The net field strength for comparison to
the appropriate emission limit is 32.0 dBV/m. This value in dBV/m is converted to its corresponding
level in V/m.
RA = 62.0 dBV
AF = 7.4 dB
CF = 1.6 dB
AG = 29.0 dB
PD = 0.0 dB
AV = ‐10 dB
FS = 62.0 + 7.4 + 1.6 – 29.0 + 0.0 + (‐10.0) = 32.0 dBV/m
Level in V/m = Common Antilogarithm [(32.0 dBV/m)/20] = 39.8 V/m
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4.6 Transmitter Radiated Emissions in Restricted Bands and Spurious Emissions
Data is included of the worst case configuration (the configuration which resulted in the highest emission
levels). A sample calculation, configuration photographs and data tables of the emissions are included.
The data on the following pages list the significant emission frequencies, the limit and
the margin of compliance.
4.6.1 Radiated Emission Configuration Photograph
Worst Case Restricted Band Radiated Emission
at
4880 and 4960 MHz
The worst case radiated emission configuration photographs are saved with filename: config photos.pdf
4.6.2 Radiated Emission Data
The data in tables 1‐4 list the significant emission frequencies, the limit and the margin
of compliance.
Judgement ‐
Passed by 1.8 dB margin
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RADIATED EMISSION DATA
Mode: TX‐Channel 00
Table 1
GFSK
Polarization
Polarization
NOTES:
Frequency
(MHz)
2390.000
4804.000
Frequency
(MHz)
2390.000
4804.000
Reading
(dBμV)
40.9
47.9
Reading
(dBμV)
52.8
47.9
Pre-Amp Antenna
Gain
Factor
(dB)
(dB)
33
29.4
33
34.9
Pre-Amp
Gain
(dB)
33
33
Antenna
Factor
(dB)
29.4
34.9
Net at
3m
(dBμV/m)
37.3
49.8
Average Limit
at 3m
(dBμV/m)
54.0
54.0
Net at
3m - Peak
(dBμV/m)
49.2
49.8
Margin
(dB)
-16.7
-4.2
Peak Limit
at 3m
(dBμV/m)
74.0
74.0
Margin
(dB)
-24.8
-24.2
1. Peak detector is used for the emission measurement.
2. Average detector is used for the average data of emission measurement
3. All measurements were made at 3 meters. Radiated emissions not detected at the 3‐meter
distance were measured at 0.3‐meter and an inverse proportional extrapolation was
performed to compare the signal level to the 3‐meter limit. No other radiated emissions
than those reported were detected at a test distance of 0.3‐meter.
4. Negative value in the margin column shows emission below limit.
5. Horn antenna is used for the emission over 1000MHz.
6. Emission (the row indicated by bold italic) within the restricted band meets the
requirement of FCC Part 15 Section 15.205 / RSS‐Gen Section 8.10.
7. For the measurement of radiated emission, summation method was used which
numerical integrating (in terms of linear power) over the transmitter occupied
bandwidth.
8. For the linear power measurement, data in 1MHz spacing was collected by spectrum
analyzer with 1MHz resolution bandwidth.
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Mode: TX‐Channel 19
Table 2
GFSK
Polarization
Polarization
NOTES:
Frequency
(MHz)
4880.000
7320.000
Frequency
(MHz)
4880.000
7320.000
Reading
(dBμV)
50.3
43.2
Reading
(dBμV)
50.3
43.2
Pre-Amp Antenna
Gain
Factor
(dB)
(dB)
33
34.9
33
37.9
Pre-Amp
Gain
(dB)
33
33
Antenna
Factor
(dB)
34.9
37.9
Net at
3m
(dBμV/m)
52.2
48.1
Average Limit
at 3m
(dBμV/m)
54.0
54.0
Net at
3m - Peak
(dBμV/m)
52.2
48.1
Margin
(dB)
-1.8
-5.9
Peak Limit
at 3m
(dBμV/m)
74.0
74.0
Margin
(dB)
-21.8
-25.9
1. Peak detector is used for the emission measurement.
2. Average detector is used for the average data of emission measurement
3. All measurements were made at 3 meters. Radiated emissions not detected at the 3‐meter
distance were measured at 0.3‐meter and an inverse proportional extrapolation was
performed to compare the signal level to the 3‐meter limit. No other radiated emissions
than those reported were detected at a test distance of 0.3‐meter.
4. Negative value in the margin column shows emission below limit.
5. Horn antenna is used for the emission over 1000MHz.
6.
Emission (the row indicated by bold italic) within the restricted band meets the
requirement of FCC Part 15 Section 15.205 / RSS‐Gen Section 8.10.
7. For the measurement of radiated emission, summation method was used which
numerical integrating (in terms of linear power) over the transmitter occupied
bandwidth.
8. For the linear power measurement, data in 1MHz spacing was collected by spectrum
analyzer with 1MHz resolution bandwidth.
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Mode: TX‐Channel 39
Table 3
GFSK
Polarization
Polarization
NOTES:
Frequency
(MHz)
2483.500
4960.000
7440.000
Frequency
(MHz)
2483.500
4960.000
7440.000
Reading
(dBμV)
41.5
50.3
44.2
Reading
(dBμV)
53.1
50.3
44.2
Pre-Amp Antenna
Gain
Factor
(dB)
(dB)
33
29.4
33
34.9
33
37.9
Pre-Amp
Gain
(dB)
33
33
33
Antenna
Factor
(dB)
29.4
34.9
37.9
Net at
3m
(dBμV/m)
37.9
52.2
49.1
Average Limit
at 3m
(dBμV/m)
54.0
54.0
54.0
Net at
3m - Peak
(dBμV/m)
49.5
52.2
49.1
Margin
(dB)
-16.1
-1.8
-4.9
Peak Limit
at 3m
(dBμV/m)
74.0
74.0
74.0
Margin
(dB)
-24.5
-21.8
-24.9
1. Peak detector is used for the emission measurement.
2. Average detector is used for the average data of emission measurement
3. All measurements were made at 3 meters. Radiated emissions not detected at the 3‐meter
distance were measured at 0.3‐meter and an inverse proportional extrapolation was
performed to compare the signal level to the 3‐meter limit. No other radiated emissions
than those reported were detected at a test distance of 0.3‐meter.
4. Negative value in the margin column shows emission below limit.
5. Horn antenna is used for the emission over 1000MHz.
6.
Emission (the row indicated by bold italic) within the restricted band meets the
requirement of FCC Part 15 Section 15.205 / RSS‐Gen Section 8.10.
7. For the measurement of radiated emission, summation method was used which
numerical integrating (in terms of linear power) over the transmitter occupied
bandwidth.
8. For the linear power measurement, data in 1MHz spacing was collected
analyzer with 1MHz resolution bandwidth.
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Binatone Electronics International
Limited
Intertek Report: No:
17050111HKG‐001
TEST REPORT
Mode: Worst‐Case Operating Mode: Normal Operation
Table 4
Polarization
NOTES:
Frequency
(MHz)
34.850
47.460
286.080
446.130
604.240
687.660
Reading
(dBμV)
30.5
29.4
13.7
12.0
9.7
11.2
Pre- Antenna
amp Factor
(dB)
(dB)
16
10.0
16
11.0
16
22.0
16
26.0
16
29.0
16
29.0
Net
at 3m
(dBμV/m)
24.5
24.4
19.7
22.0
22.7
24.2
Limit
at 3m
(dBμV/m)
40.0
40.0
46.0
46.0
46.0
46.0
Margin
(dB)
-15.5
-15.7
-26.3
-24.0
-23.3
-21.8
1. Peak detector is used for the emission measurement.
2. All measurements were made at 3 meters. Radiated emissions not detected at the 3‐
meter distance were measured at 0.3‐meter and an inverse proportional extrapolation was
performed to compare the signal level to the 3‐meter limit. No other radiated emissions
than those reported were detected at a test distance of 0.3‐meter.
3. Negative value in the margin column shows emission below limit.
4. Emission (the row indicated by bold italic) within the restricted band meets the
requirement of FCC Part 15 Section 15.205 / RSS‐Gen Section 8.10.
Page 24 of 27
Binatone Electronics International
Limited
Intertek Report: No:
17050111HKG‐001
TEST REPORT
4.6.3
Radiated Emission Test Setup
The figure below shows the test setup, which is utilized to make these measurements.
1.0~4.0m
Antenna
Tower
Receiver
Antenna
3m
0.8m
Ground Plane
3m Chamber
□
RF Test
Receiver
Test setup of radiated emissions up to 1GHz
1.0~4.0m
Antenna
Tower
Receiver
Antenna
3m
1.5m
Ground Plane
□
RF Test Spectrum
Analyzer
Test setup of radiated emissions above 1GHz
Page 25 of 27
Binatone Electronics International
Limited
Intertek Report: No:
17050111HKG‐001
TEST REPORT
4.6.4 Transmitter Duty Cycle Calculation
Not applicable – No average factor is required.
Page 26 of 27
Binatone Electronics International
Limited
Intertek Report: No:
17050111HKG‐001
TEST REPORT
EXHIBIT 5
EQUIPMENT LIST
5.0 EQUIPMENT LIST
1) Radiated Emissions Test
Equipment
EMI Test Receiver
Spectrum Analyzer
Registration No.
Manufacturer
Model No.
Calibration Date
Calibration Due Date
N/A
Agilent
E4446A
Feb. 17, 2017
Feb. 16, 2018
N/A
Agilent
E4446A
Feb. 17, 2017
Feb. 16, 2018
Broad‐Band Horn
Antenna
N/A
Schwarzbeck
BBHA 9170
Feb. 11, 2017
Feb. 10, 2018
Equipment
Registration No.
Manufacturer
Model No.
Calibration Date
Calibration Due Date
Log Periodic Antenna
N/A
SCHAFFNER
CBL6143
Feb. 12, 2017
Feb. 11, 2018
High Noise Amplifier
EW‐1133
Agilent
8449B
Feb. 11, 2017
Feb. 10, 2018
Horn Antenna
N/A
Schwarzbeck
BBHA9120
Feb. 12, 2017
Feb. 11, 2018
2) Conductive Measurement Test
Equipment
Spectrum Analyzer
Registration No.
N/A
Manufacturer
Agilent
Model No.
E4446A
Calibration Date
Feb. 17, 2017
Calibration Due Date
Feb. 16, 2018
Page 27 of 27
Download: MBP70SN Smart Touchless Forehead Thermometer Test Report Date of Type Binatone Electronics International Ltd.
Mirror Download [FCC.gov]MBP70SN Smart Touchless Forehead Thermometer Test Report Date of Type Binatone Electronics International Ltd.
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