SMA730F Multi-band GSM/EDGE/UMTS/LTE Phone with Bluetooth, WLAN, RFID and ANT+ Test Report MASTER RF Bluetooth Samsung Electronics Co Ltd

Samsung Electronics Co Ltd Multi-band GSM/EDGE/UMTS/LTE Phone with Bluetooth, WLAN, RFID and ANT+

FCC ID Filing: A3LSMA730F
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PCTEST ENGINEERING LABORATORY, INC.
7185 Oakland Mills Road, Columbia, MD 21046 USA
Tel. 410.290.6652 / Fax 410.290.6654
http://www.pctest.com
MEASUREMENT REPORT
Bluetooth
Applicant Name:
Samsung Electronics Co., Ltd.
129, Samsung-ro,
Yeongtong-gu, Suwon-si
Gyeonggi-do, 16677, Korea
Date of Testing:
10/5-11/6/2017
Test Site/Location:
PCTEST Lab. Columbia, MD, USA
Test Report Serial No.:
1M1710050266-08.A3L
FCC ID:
A3LSMA730F
APPLICANT:
Samsung Electronics Co., Ltd.
Application Type:
Model:
Additional Model(s):
EUT Type:
Max. RF Output Power:
Frequency Range:
Type of Modulation:
FCC Classification:
FCC Rule Part(s):
ISED Specification:
Test Procedure(s):
Certification
SM-A730F/DS
SM-A730F
Portable Handset
9.966 mW (9.99 dBm) Peak Conducted
2402 – 2480MHz
GFSK, /4-DQPSK, 8DPSK
FCC Part 15 Spread Spectrum Transmitter (DSS)
Part 15 Subpart C (15.247)
RSS-247 Issue 2
ANSI C63.10-2013
This equipment has been shown to be capable of compliance with the applicable technical standards as indicated in the measurement report
and was tested in accordance with the measurement procedures specified in ANSI C63.10-2013. Test results reported herein relate only to
the item(s) tested.
I attest to the accuracy of data. All measurements reported herein were performed by me or were made under my supervision and are
correct to the best of my knowledge and belief. I assume full responsibility for the completeness of these measurements and vouch for the
qualifications of all persons taking them.
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 1 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
T A B L E
1.0
2.0
3.0
O F
C O N T E N T S
INTRODUCTION .......................................................................................................................................... 3
1.1
Scope ................................................................................................................................................................... 3
1.2
PCTEST Test Location ......................................................................................................................................... 3
1.3
Test Facility / Accreditations ................................................................................................................................. 3
PRODUCT INFORMATION.......................................................................................................................... 4
2.1
Equipment Description ......................................................................................................................................... 4
2.2
Device Capabilities ............................................................................................................................................... 4
2.3
Test Configuration ................................................................................................................................................ 4
2.4
EMI Suppression Device(s)/Modifications ............................................................................................................ 4
DESCRIPTION OF TESTS .......................................................................................................................... 5
3.1
Evaluation Procedure ........................................................................................................................................... 5
3.2
AC Line Conducted Emissions ............................................................................................................................. 5
3.3
Radiated Emissions .............................................................................................................................................. 6
3.4
Environmental Conditions..................................................................................................................................... 6
4.0
ANTENNA REQUIREMENTS ...................................................................................................................... 7
5.0
MEASUREMENT UNCERTAINTY ............................................................................................................... 8
6.0
TEST EQUIPMENT CALIBRATION DATA .................................................................................................. 9
7.0
TEST RESULTS ......................................................................................................................................... 10
8.0
7.1
Summary ............................................................................................................................................................ 10
7.2
20dB Bandwidth Measurement .......................................................................................................................... 11
7.3
Output Power Measurement ............................................................................................................................... 17
7.4
Band Edge Compliance ...................................................................................................................................... 28
7.5
Carrier Frequency Separation ............................................................................................................................ 31
7.6
Time of Occupancy............................................................................................................................................. 33
7.7
Number of Hopping Channels ............................................................................................................................ 35
7.8
Conducted Spurious Emissions .......................................................................................................................... 37
7.9
Radiated Spurious Emission Measurements – Above 1GHz.............................................................................. 41
7.10
Radiated Restricted Band Edge Measurements ............................................................................................. 49
7.11
Radiated Spurious Emissions Measurements – Below 1GHz ........................................................................ 50
7.12
Line Conducted Measurement Data ............................................................................................................... 54
CONCLUSION ............................................................................................................................................ 57
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 2 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
1.0
INTRODUCTION
1.1
Scope
Measurement and determination of electromagnetic emissions (EMC) of radio frequency devices including
intentional and/or unintentional radiators for compliance with the technical rules and regulations of the Federal
Communications Commission and the Innovation, Science and Economic Development Canada.
1.2
PCTEST Test Location
These measurement tests were conducted at the PCTEST Engineering Laboratory, Inc. facility located at 7185
Oakland Mills Road, Columbia, MD 21046. The facility is 0.4 miles North of the FCC laboratory, and the ambient
signal and ambient signal strength are approximately equal to those of the FCC laboratory. The measurement
facility is compliant with the test site requirements specified in ANSI C63.4-2014.
1.3
Test Facility / Accreditations
Measurements were performed at PCTEST Engineering Lab located in Columbia, MD 21046, U.S.A.

PCTEST is an ISO 17025-2005 accredited test facility under the American Association for Laboratory
Accreditation (A2LA) with Certificate number 2041.01 for Specific Absorption Rate (SAR), Hearing Aid
Compatibility (HAC) testing, where applicable, and Electromagnetic Compatibility (EMC) testing for FCC and
Innovation, Science, and Economic Development Canada rules.

PCTEST TCB is a Telecommunication Certification Body (TCB) accredited to ISO/IEC 17065-2012 by A2LA
(Certificate number 2041.03) in all scopes of FCC Rules and ISED Standards (RSS).

PCTEST facility is a registered (22831) test laboratory with the site description on file with ISED.
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 3 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
2.0
PRODUCT INFORMATION
2.1
Equipment Description
The Equipment Under Test (EUT) is the Samsung Portable Handset FCC ID: A3LSMA730F. The test data
contained in this report pertains only to the emissions due to the EUT’s Bluetooth transmitter.




This Bluetooth module has been tested by a Bluetooth Qualification Lab, and we confirm the following:
A) The hopping sequence is pseudorandom
B) All channels are used equally on average
C) The receiver input bandwidth equals the transmit bandwidth
D) The receiver hops in sequence with the transmit signal
15.247(g): In accordance with the Bluetooth Industry Standard, the system is designed to comply with all of the
regulations in Section 15.247 when the transmitter is presented with a continuous data (or information) system.
15.247(h): In accordance with the Bluetooth Industry Standard, the system does not coordinate its channels selection/
hopping sequence with other frequency hopping systems for the express purpose of avoiding the simultaneous
occupancy of individual hopping frequencies by multiple transmitters.
15.247(h): The EUT employs Adaptive Frequency Hopping (AFH) which identifies sources of interference namely devices
operating in 802.11 WLAN and excludes them from the list of available channels. The process of re-mapping reduces the
number of test channels from 79 channels to a minimum number of 20 channels.
Test Device Serial No.: 29909, 29396, 29503, 29907
2.2
Device Capabilities
This device contains the following capabilities:
850/1900 GSM/GPRS/EDGE, 850/1700/1900 WCDMA, Multi-band LTE, 802.11b/g/n WLAN, 802.11a/n/ac UNII,
Bluetooth (1x, EDR, LE), NFC, ANT+
Ch.
Frequency (MHz)
00
2402
39
2441
78
2480
Table 2-1. Frequency/ Channel Operations
Note: This device is capable of operating in hopping and non-hopping mode. The EUT can hop between 79
different channels in the 2400 – 2483.5MHz band.
2.3
Test Configuration
The EUT was tested per the guidance of ANSI C63.10-2013. ANSI C63.10-2013 was also used to reference the
appropriate EUT setup for radiated spurious emissions testing and AC line conducted testing. See Sections 3.2
for AC line conducted emissions test setups, 3.3 for radiated emissions test setups, and 7.2, 7.3, 7.4, 7.5, 7.6,
7.7, and 7.8 for antenna port conducted emissions test setups.
2.4
EMI Suppression Device(s)/Modifications
No EMI suppression device(s) were added and no modifications were made during testing.
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 4 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
3.0
DESCRIPTION OF TESTS
3.1
Evaluation Procedure
The measurement procedure described in the American National Standard of Procedures for Compliance Testing
of Unlicensed Wireless Devices (ANSI C63.10-2013) was used in the measurement of the EUT.
Deviation from measurement procedure…………………………………………….....................................None
3.2
AC Line Conducted Emissions
The line-conducted facility is located inside a 10'x16'x9' shielded enclosure. The shielded enclosure is
manufactured by ETS Lindgren RF Enclosures. The shielding effectiveness of the shielded room is in accordance
with MIL-Std-285 or NSA 65-5. A 1m x 1.5m wooden table 80cm high is placed 40cm away from the vertical wall
and 80cm away from the sidewall of the shielded room. Two 10kHz-30MHz, 50/50H Line-Impedance
Stabilization Networks (LISNs) are bonded to the shielded room floor. Power to the LISNs is filtered by external
high-current high-insertion loss power line filters. The external power line filter is an ETS Lindgren Model LPRX4X30 (100dB Attenuation, 14kHz-18GHz) and the two EMI/RFI filters are ETS Lindgren Model LRW-2030-S1
(100dB Minimum Insertion Loss, 14kHz – 10GHz). These filters attenuate ambient signal noise from entering the
measurement lines. These filters are also bonded to the shielded enclosure.
The EUT is powered from one LISN and the support equipment is powered from the second LISN. If the EUT is a
DC-powered device, power will be derived from the source power supply it normally will be powered from and this
supply line(s) will be connected to the second LISN. All interconnecting cables more than 1 meter were shortened
to a 1 meter length by non-inductive bundling (serpentine fashion) and draped over the back edge of the test
table. All cables were at least 40cm above the horizontal reference groundplane. Power cables for support
equipment were routed down to the second LISN while ensuring that the cables were not draped over the second
LISN.
Sufficient time for the EUT, support equipment, and test equipment was allowed in order for them to warm up to
their normal operating condition. The RF output of the LISN was connected to the spectrum analyzer and
exploratory measurements were made to determine the frequencies producing the maximum emission from the
EUT. The spectrum was scanned from 150kHz to 30MHz with a spectrum analyzer. The detector function was set
to peak mode for exploratory measurements while the bandwidth of the analyzer was set to 10kHz. The EUT,
support equipment, and interconnecting cables were arranged and manipulated to maximize each emission. Once
the worst case emissions have been identified, the one EUT cable configuration/arrangement and mode of
operation that produced these emissions is used for final measurements on the same test site. The analyzer is set
to CISPR quasi-peak and average detectors with a 9kHz resolution bandwidth for final measurements.
Line conducted emissions test results are shown in Section 7.12. The EMI Receiver mode of the Agilent MXE was
used to perform AC line conducted emissions testing.
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 5 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
3.3
Radiated Emissions
The radiated test facilities consisted of an indoor 3 meter semi-anechoic chamber used for final measurements
and exploratory measurements, when necessary. The measurement area is contained within the semi-anechoic
chamber which is shielded from any ambient interference. The test site inside the chamber is a 6m x 5.2m
elliptical, obstruction-free area in accordance with Figure 5.7 of Clause 5 in ANSI C63.4-2014. Absorbers are
arranged on the floor between the turn table and the antenna mast in such a way so as to maximize the reduction
of reflections for measurements above 1GHz. An 80cm tall test table made of Styrodur is placed on top of the turn
table. For measurements above 1GHz, an additional Styrodur pedestal is placed on top of the test table to bring
the total table height to 1.5m.
For all measurements, the spectrum was scanned through all EUT azimuths and from 1 to 4 meter receive
antenna height using a broadband antenna from 30MHz up to the upper frequency shown in 15.33(b)(1)
depending on the highest frequency generated or used in the device or on which the device operates or tunes.
For frequencies above 1GHz, linearly polarized double ridge horn antennas were used. For frequencies below
30MHz, a calibrated loop antenna was used. When exploratory measurements were necessary, they were
performed at 1 meter test distance inside the semi-anechoic chamber using broadband antennas, broadband
amplifiers, and spectrum analyzers to determine the frequencies and modes producing the maximum emissions.
Sufficient time for the EUT, support equipment, and test equipment was allowed in order for them to warm up to
their normal operating condition. The test set-up was placed on top of the 1 x 1.5 meter table. The EUT, support
equipment, and interconnecting cables were arranged and manipulated to maximize each emission. Appropriate
precaution was taken to ensure that all emissions from the EUT were maximized and investigated. The system
configuration, mode of operation, turntable azimuth, and receive antenna height was noted for each frequency
found.
Final measurements were made in the semi-anechoic chamber using calibrated, linearly polarized broadband and
horn antennas. The test setup was configured to the setup that produced the worst case emissions. The spectrum
analyzer was set to investigate all frequencies required for testing to compare the highest radiated disturbances
with respect to the specified limits. The turntable containing the EUT was rotated through 360 degrees and the
height of the receive antenna was varied 1 to 4 meters and stopped at the azimuth and height producing the
maximum emission. Each emission was maximized by changing the orientation of the EUT through three
orthogonal planes and changing the polarity of the receive antenna, whichever produced the worst-case
emissions.
3.4
Environmental Conditions
The temperature is controlled within range of 15oC to 35oC. The relative humidity is controlled within range of 10%
to 75%. The atmospheric pressure is monitored within the range 86-106kPa (860-1060mbar).
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 6 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
4.0
ANTENNA REQUIREMENTS
Excerpt from §15.203 of the FCC Rules/Regulations:
“An intentional radiator antenna shall be designed to ensure that no antenna other than that furnished by the
responsible party can 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 antennas of the EUT are permanently attached.

There are no provisions for connection to an external antenna.
Conclusion:
The EUT complies with the requirement of §15.203.
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 7 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
5.0
MEASUREMENT UNCERTAINTY
The measurement uncertainties shown below were calculated in accordance with the requirements of
ANSI C63.10-2013. All measurement uncertainty values are shown with a coverage factor of k = 2 to indicate a
95% level of confidence. The measurement uncertainty shown below meets or exceeds the UCISPR measurement
uncertainty values specified in CISPR 16-4-2 and, thus, can be compared directly to specified limits to determine
compliance.
Contribution
Expanded Uncertainty (±dB)
Conducted Bench Top
Measurements
1.13
Conducted Disturbance
3.09
Radiated Disturbance (<1GHz)
4.98
Radiated Disturbance (>1GHz)
5.07
Radiated Disturbance (>18GHz)
5.09
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6.0
TEST EQUIPMENT CALIBRATION DATA
Test Equipment Calibration is traceable to the National Institute of Standards and Technology (NIST).
Measurements antennas used during testing were calibrated in accordance to the requirements of ANSI C63.52017.
Manufacturer
Model
Description
Cal Date
Cal Interval
Cal Due
Serial Number
‐
‐
Agilent
Agilent
Agilent
COM‐Power
Com‐Power
Com‐Power
EMCO
EMCO
ETS Lindgren
Pasternack
PCTEST
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Solar Electronics
Seekonk
Sunol
BT2
RE1
N4010A
N9030A
N9038A
AL‐130R
PAM‐103
PAM‐118A
3115
3160‐09
3117
NMLC‐1
‐
CMU200
ESU26
FSW67
TS‐PR26
SFUNIT‐Rx
SFUNIT‐Rx
8012‐50‐R‐24‐BNC
NC‐100
JB5
Bluetooth Cable Set
Radiated Emissions Cable Set (UHF/EHF)
Wireless Connectivity Test Set
PXA Signal Analyzer (44GHz)
MXE EMI Receiver
Active Loop Antenna
Pre‐Amplifier (1‐1000MHz)
Pre‐Amplifier
Horn Antenna (1‐18GHz)
Small Horn (18 ‐ 26.5GHz)
1‐18 GHz DRG Horn (Medium)
Line Conducted Emissions Cable (NM)
EMC Switch System
Base Station Simulator
EMI Test Receiver (26.5GHz)
Signal / Spectrum Analyzer
18‐26.5 GHz Pre‐Amplifier
Shielded Filter Unit
Shielded Filter Unit
Line Impedance Stabilization Network
Torque Wrench 5/16", 8" lbs
Bi‐Log Antenna (30M ‐ 5GHz)
6/14/2017
6/21/2017
Annual
Annual
N/A
Annual
Annual
Annual
Annual
Annual
Biennial
Biennial
Biennial
Annual
Annual
N/A
Annual
Annual
Annual
Annual
Annual
Biennial
Biennial
Biennial
6/14/2018
6/21/2018
BT2
RE1
GB44450273
MY52350166
MY51210133
121085
441119
551042
9704‐5182
135427
125518
NMLC‐1
NM2
836536/0005
100342
103200
100040
102134
102133
310233
N/A
A051107
3/27/2017
4/26/2017
6/5/2017
6/21/2017
6/21/2017
3/10/2016
8/23/2016
4/26/2016
5/31/2017
6/21/2017
4/19/2017
8/11/2017
5/11/2017
7/3/2017
7/3/2017
8/14/2017
3/2/2016
3/14/2016
3/27/2018
4/26/2018
6/5/2018
6/21/2018
6/21/2018
3/10/2018
8/23/2018
4/26/2018
5/31/2018
6/21/2018
4/19/2018
8/11/2018
5/11/2018
7/3/2018
7/3/2018
8/14/2019
3/2/2018
3/14/2018
Table 6-1. Annual Test Equipment Calibration Schedule
Note:
Equipment with a calibration date of “N/A” shown in this list was not used to make direct calibrated
measurements.
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7.0
TEST RESULTS
7.1
Summary
Company Name:
Samsung Electronics Co., Ltd.
FCC ID:
A3LSMA730F
Method/System:
Frequency Hopping Spread Spectrum (FHSS)
Number of Channels:
79
FCC Part
Section(s)
RSS Section(s)
Test Description
Test Limit
Test
Condition
Test
Result
Reference
15.247(a)(1)(iii)
RSS-247 [5.1(1)]
20dB Bandwidth
N/A
PASS
Section 7.2
15.247(b)(1)
RSS-247 [5.4(2)]
Peak Transmitter Output
Power
 1 Watt if > 75 nonoverlapping channels
used
PASS
Section 7.3
15.247(a)(1)
RSS-247 [5.1(2)]
Channel Separation
> 2/3 of 20 dB BW for
systems with Output
Power < 125mW
PASS
Section 7.5
15.247(a)(1)(iii)
RSS-247 [5.1(4)]
Number of Channels
> 15 Channels
PASS
Section 7.7
15.247(a)(1)(iii)
RSS-247 [5.1(4)]
Time of Occupancy
< 0.4 sec in 31.6 sec
period
PASS
Section 7.6
15.247(d)
RSS-247 [5.5]
Band Edge / Out-of-Band
Emissions
Conducted > 20dBc
PASS
Section 7.4,
Section 7.8
15.205
15.209
RSS-Gen [8.9]
General Field Strength
Limits (Restricted Bands
and Radiated Emission
Limits)
Emissions in restricted
bands must meet the
radiated limits detailed in
15.209 (RSS-247 limits)
RADIATED
PASS
Section 7.9,
Section 7.10,
Section 7.11
15.207
RSS-Gen [8.8]
AC Conducted Emissions
150kHz – 30MHz
< FCC 15.207 limits
(RSS-Gen [8.8] limits)
LINE
CONDUCTED
PASS
Section 7.12
CONDUCTED
Table 7-1. Summary of Test Results
Notes:
1) All modes of operation and data rates were investigated. The test results shown in the following sections
represent the worst case emissions.
2) The analyzer plots shown in this section were all taken with a correction table loaded into the analyzer. The
correction table was used to account for the losses of the cables, directional couplers, and attenuators used
as part of the system to maintain a link between the call box and the EUT at all frequencies of interest.
3) All antenna port conducted emissions testing was performed on a test bench with the antenna port of the EUT
connected to the spectrum analyzer through calibrated cables, attenuators, and couplers.
4) For conducted spurious emissions, automated test software was used to measure emissions and capture the
corresponding plots necessary to show compliance. The measurement software utilized is PCTEST “BT
Auto,” Version 3.3.
5) For radiated band edge, automated test software was used to measure emissions and capture the
corresponding plots necessary to show compliance. The measurement software utilized is PCTEST
“Chamber Automation,” Version 1.1.5.
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7.2
20dB Bandwidth Measurement
§15.247 (a.1.iii); RSS-247 [5.1(1)]
Test Overview and Limit
The bandwidth at 20dB down from the highest in-band spectral density is measured with a spectrum analyzer
connected to the receive antenna while the EUT is operating in transmission mode at the appropriate frequencies.
Test Procedure Used
ANSI C63.10-2013 – Section 6.9.2
Test Settings
1. The signal analyzers’ automatic bandwidth measurement capability of the spectrum analyzer was used to
perform the 20dB bandwidth measurement. The “X” dB bandwidth parameter was set to
X = 20. The bandwidth measurement was not influenced by any intermediate power nulls in the
fundamental emission.
2. RBW = 1 – 5% OBW
3. VBW ≥ 3 x RBW
4. Reference level set to keep signal from exceeding maximum input mixer level for linear operation.
5. Detector = Peak
6. Trace mode = max hold
7. Sweep = auto couple
8. The trace was allowed to stabilize
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-1. Test Instrument & Measurement Setup
Test Notes
None
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20dB
Bandwidth
Channel
Test
No.
Results
[kHz]
Frequency
[MHz]
Data
Rate
[Mbps]
2402
1.0
963.50
2441
1.0
39
999.80
2480
1.0
78
961.60
2402
2.0
1334.00
2441
2.0
39
1342.00
2480
2.0
78
1328.00
2402
3.0
1277.00
2441
3.0
39
1320.00
2480
3.0
78
1282.00
Table 7-2. Conducted 20dB Bandwidth Measurements
Plot 7-1. 20dB Bandwidth Plot (Bluetooth, 1Mbps – Ch. 0)
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Plot 7-2. 20dB Bandwidth Plot (Bluetooth, 1Mbps – Ch. 39)
Plot 7-3. 20dB Bandwidth Plot (Bluetooth, 1Mbps – Ch. 78)
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Plot 7-4. 20dB Bandwidth Plot (Bluetooth, 2Mbps – Ch. 0)
Plot 7-5. 20dB Bandwidth Plot (Bluetooth, 2Mbps – Ch. 39)
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Plot 7-6. 20dB Bandwidth Plot (Bluetooth, 2Mbps – Ch. 78)
Plot 7-7. 20dB Bandwidth Plot (Bluetooth, 3Mbps – Ch. 0)
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Plot 7-8. 20dB Bandwidth Plot (Bluetooth, 3Mbps – Ch. 39)
Plot 7-9. 20dB Bandwidth Plot (Bluetooth, 3Mbps – Ch. 78)
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7.3
Output Power Measurement
§15.247 (b.1); RSS-247 [5.4(2)]
Test Overview and Limits
Measurement is made while the EUT is operating in non-hopping transmission mode. The powers shown below
were measured using a spectrum analyzer with a Bluetooth signaling test set (Agilent Model: N4010A) used only
to maintain a Bluetooth link with the EUT. Average power data is provided to determine the need for Bluetooth
SAR testing according to KDB 447498 D01 v06. Average power measurements are performed using the
analyzer’s “burst power” function with RBW = 3MHz. The burst power function triggers on a single set burst set to
maximum power and measures the maximum average power on the on-time.
The maximum permissible output power is 1 Watt.
Test Procedure Used
ANSI C63.10-2013 – Section 7.8.5
Test Settings
Peak Power Measurement
1. Span = approximately 5x 20dB bandwidth, centered on hopping channel
2. RBW > 20dB bandwidth of emission being measured
3. VBW ≥ RBW
4. Sweep = auto
5. Detector = peak
6. Trace mode = max hold
7. The trace was allowed to stabilize
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-2. Test Instrument & Measurement Setup
Note
This unit was tested with all possible data rates and the highest peak power is reported with the unit transmitting
at 3Mbps.
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Final results were obtained using calibrated couplers, attenuators and cables. The following formula was used:
Output Power (dBm) = Raw Analyzer Level (dBm) + Cable Loss (dB) + Loss in Directional Coupler/Insertion Loss
(dB)
Peak Conducted
Power
Avg Conducted
Power
[dBm]
[mW]
[dBm]
[mW]
7.83
6.065
7.11
5.138
1.0
39
8.90
7.764
8.28
6.730
2480
1.0
78
8.96
7.861
8.26
6.698
2402
2.0
8.16
6.551
5.45
3.506
2441
2.0
39
9.32
8.543
6.62
4.593
2480
2.0
78
9.41
8.730
6.57
4.543
2402
3.0
8.89
7.737
5.53
3.570
2441
3.0
39
9.99
9.966
6.70
4.673
2480
3.0
78
9.98
9.952
6.64
4.612
Frequency
[MHz]
Data
Rate
[Mbps]
Channel
No.
2402
1.0
2441
Table 7-3. Conducted Output Power Measurements
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Plot 7-10. Peak Conducted Power (1Mbps – Ch. 0)
Plot 7-11. Peak Conducted Power (1Mbps – Ch. 39)
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Plot 7-12. Peak Conducted Power (1Mbps – Ch. 78)
Plot 7-13. Peak Conducted Power (2Mbps – Ch. 0)
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Plot 7-14. Peak Conducted Power (2Mbps – Ch. 39)
Plot 7-15. Peak Conducted Power (2Mbps – Ch. 78)
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Plot 7-16. Peak Conducted Power (3Mbps – Ch. 0)
Plot 7-17. Peak Conducted Power (3Mbps – Ch. 39)
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Plot 7-18. Peak Conducted Power (3Mbps – Ch. 78)
Plot 7-19. Average Conducted Power (1Mbps – Ch. 0)
MEASUREMENT REPORT
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Plot 7-20. Average Conducted Power (1Mbps – Ch. 39)
Plot 7-21. Average Conducted Power (1Mbps – Ch. 78)
MEASUREMENT REPORT
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Plot 7-22. Average Conducted Power (2Mbps – Ch. 0)
Plot 7-23. Average Conducted Power (2Mbps – Ch. 39)
MEASUREMENT REPORT
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Plot 7-24. Average Conducted Power (2Mbps – Ch. 78)
Plot 7-25. Average Conducted Power (3Mbps – Ch. 0)
MEASUREMENT REPORT
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Plot 7-26. Average Conducted Power (3Mbps – Ch. 39)
Plot 7-27. Average Conducted Power (3Mbps – Ch. 78)
MEASUREMENT REPORT
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7.4
Band Edge Compliance
§15.247 (d); RSS-247 [5.5]
Test Overview and Limits
EUT operates in hopping and non-hopping transmission mode. Measurement is taken at the highest point located
outside of the emission bandwidth. The maximum permissible out-of-band emission level is
20 dBc.
Test Procedure Used
ANSI C63.10-2013 – Section 6.10.4
Test Settings
1. Start and stop frequency were set such that the band edge would be placed in the center of the plot
2. Span was set large enough so as to capture all out of band emissions near the band edge
3. RBW = 100kHz
4. VBW = 300kHz
5. Detector = Peak
6. Number of sweep points ≥ 2 x Span/RBW
7. Trace mode = max hold
8. Sweep time = auto couple
9. The trace was allowed to stabilize
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-3. Test Instrument & Measurement Setup
Test Notes
Out of band conducted spurious emissions at the band edge were investigated for all data rates in hopping and
non-hopping modes. The worst case emissions were found with the EUT transmitting at 3 Mbps. Band edge
emissions were also investigated with the EUT transmitting in all data rates. Plots of the worst case emissions are
shown below.
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Plot 7-28. Band Edge Plot (Bluetooth with Hopping Disabled, 3 Mbps – Ch. 0)
Plot 7-29. Band Edge Plot (Bluetooth with Hopping Disabled, 3 Mbps – Ch. 78)
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Plot 7-30. Band Edge Plot (Bluetooth with Hopping Enabled, 3 Mbps)
Plot 7-31. Band Edge Plot (Bluetooth with Hopping Enabled, 3 Mbps)
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7.5
Carrier Frequency Separation
§15.247 (a.1); RSS-247 [5.1(2)]
Test Overview and Limit
Measurement is made with EUT operating in hopping mode. The minimum permissible channel separation for
this system is 2/3 the value of the 20dB BW.
Test Procedure Used
ANSI C63.10-2013 – Section 7.8.2
Test Settings
1. Span = Wide enough to capture peaks of two adjacent channels
2. RBW = 30% of channel spacing. Adjust as necessary to best identify center of each individual channel
3. VBW ≥ RBW
4. Sweep = Auto
5. Detector = Peak
6. Trace mode = max hold
7. The trace was allowed to stabilize.
8. Marker-delta function used to determine separation between peaks of the adjacent channels
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-4. Test Instrument & Measurement Setup
Test Notes
The EUT complies with the minimum channel separation requirement when it is operating in 1x/EDR mode using
79 channels and when operating in AFH mode using 20 channels.
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Frequency
[MHz]
Data
Rate
[Mbps]
Channel
No.
Min.
Channel
Separation
[MHz]
2402
1.0
0.673
2441
1.0
39
0.667
2480
1.0
78
0.642
2402
2.0
0.858
2441
2.0
39
0.895
2480
2.0
78
0.885
2402
3.0
0.851
2441
3.0
39
0.880
2480
3.0
78
0.855
Table 7-4. Minimum Channel Separation
Plot 7-32. Channel Spacing Plot (Bluetooth)
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7.6
Time of Occupancy
§15.247 (a.1.iii); RSS-247 [5.1(4)]
Test Overview and Limit
Measurement is made while EUT is operating in hopping mode with the spectrum analyzer set to zero span. The
maximum permissible time of occupancy is 400 ms within a period of 400ms multiplied by the number of
hopping channels employed.
Test Procedure Used
ANSI C63.10-2013 – Section 7.8.4
Test Settings
1. Span = zero span, centered on a hopping channel
2. RBW ≤ channel spacing and >> 1/T, where T is expected dwell time per channel
3. Sweep = as necessary to capture entire dwell time. Second plot may be required to demonstrate two
successive hops on a channel
4. Trigger is set with appropriate trigger delay to place pulse near the center of the plot
5. Detector = peak
6. Trace mode = max hold
7. Marker-delta function used to determine transmit time per hop
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-5. Test Instrument & Measurement Setup
Test Notes
None
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Plot 7-33. Time of Occupancy Plot (Bluetooth)
Bluetooth Time of Occupancy Calculation
Typically, Bluetooth 1x/EDR mode has a channel hopping rate of 1600 hops/s. Since 1x/EDR modes use 5
transmit and 1 receive slot, for a total of 6 slots, the Bluetooth transmitter is actually hopping at a rate of 1600 / 6
= 266.67 hops/s/slot
400ms x 79 hopping channels = 31.6 sec (Time of Occupancy Limit)
Worst case BT has 266.67 hops/second (for 1x/EDR modes with DH5 operation)
266.67 hops/second / 79 channels = 3.38 hops/second (# of hops/second on one channel)
3.38 hops/second/channel x 31.6 seconds = 106.67 hops (# hops over a 31.6 second period)
106.67 hops x 2.890 ms/channel = 308.27 ms (worst case dwell time for one channel in 1x/EDR modes)
With AFH, the number of channels is reduced to a minimum of 20 channels and the channel hopping rate is
reduced by 50% to 800 hops/s. AFH mode also uses 6 total slots so the Bluetooth transmitter hops at a rate of
800 / 6 = 133.3 hops/s/slot
400ms x 20 hopping channels = 8 sec (Time of Occupancy Limit)
Worst case BT has 133.3 hops/second/slot (for AFH mode with DH5 operation)
133.3 hops/s / 20 channels = 6.67 hops/second (# of hops/second on one channel)
6.67 hops/s / channel x 8 seconds = 53.34 hops (# hops over a 8 second period)
53.34 hops x 2.890 ms/channel = 154.15 ms (worst case dwell time for one channel in AFH mode)
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7.7
Number of Hopping Channels
§15.247 (a.1.iii); RSS-247 [5.1(4)]
Test Overview and Limit
Measurement is made while EUT is operating in hopping mode. This frequency hopping system must employ
a minimum of 15 hopping channels.
Test Procedure Used
ANSI C63.10-2013 – Section 7.8.3
Test Settings
1. Span = frequency of band of operation (divided into two plots)
2. RBW < 30% of channel spacing or 20dB bandwidth, whichever is smaller.
3. VBW ≥ RBW
4. Sweep = auto
5. Detector = peak
6. Trace mode = max hold
7. Trace was allowed to stabilize
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-6. Test Instrument & Measurement Setup
Test Notes
The frequency spectrum was broken up into two sub-ranges to clearly show all of the hopping frequencies. In
AFH mode, this device operates using 20 channels so the requirement for minimum number of hopping channels
is satisfied.
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Plot 7-34. Low End Spectrum Channel Hopping Plot (Bluetooth)
Plot 7-35. High End Spectrum Channel Hopping Plot (Bluetooth)
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7.8
Conducted Spurious Emissions
§15.247 (d); RSS-247 [5.5]
Test Overview and Limit
Conducted out-of-band spurious emissions were investigated from 30MHz up to 25GHz to include the 10th
harmonic of the fundamental transmit frequency. The maximum permissible out-of-band emission level is
20 dBc.
Test Procedure Used
ANSI C63.10-2013 – Section 7.8.8
Test Settings
1. Start frequency was set to 30MHz and stop frequency was set to 25GHz (separated into two plots per
channel)
2. RBW = 1MHz* (See note below)
3. VBW = 3MHz
4. Detector = Peak
5. Trace mode = max hold
6. Sweep time = auto couple
7. The trace was allowed to stabilize
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-7. Test Instrument & Measurement Setup
Test Notes
Out-of-band conducted spurious emissions were investigated for all data rates and the worst case emissions were
found with the EUT transmitting at 3Mbps. The display line shown in the following plots is the limit at 20dB below
the fundamental emission level measured in a 100kHz bandwidth. However, the traces in the following plots are
measured with a 1MHz RBW to reduce test time, so the display line may not necessarily appear to be 20dB below
the level of the fundamental in a 1MHz bandwidth.
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Plot 7-36. Conducted Spurious Plot (Bluetooth, 3Mbps – Ch. 0)
Plot 7-37. Conducted Spurious Plot (Bluetooth, 3Mbps – Ch. 0)
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Plot 7-38. Conducted Spurious Plot (Bluetooth, 3Mbps – Ch. 39)
Plot 7-39. Conducted Spurious Plot (Bluetooth, 3Mbps – Ch. 39)
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Plot 7-40. Conducted Spurious Plot (Bluetooth, 3Mbps – Ch. 78)
Plot 7-41. Conducted Spurious Plot (Bluetooth, 3Mbps – Ch. 78)
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7.9
Radiated Spurious Emission Measurements – Above 1GHz
§15.205 §15.209 §15.247 (d); RSS-Gen [8.9]
Test Overview and Limit
All out of band radiated spurious emissions are measured with a spectrum analyzer connected to a receive
antenna while the EUT is operating at maximum power and at the appropriate frequencies. Only the radiated
emissions of the configuration that produced the worst case emissions are reported in this section.
All out of band emissions appearing in a restricted band as specified in Section 15.205 of the Title 47 CFR
and Table 6 of RSS-Gen (8.10) must not exceed the limits shown in Table 7-5 per Section 15.209 and RSSGen (8.9).
Frequency
Field Strength
[V/m]
Measured Distance
[Meters]
500
Above 960.0 MHz
Table 7-5. Radiated Limits
Test Procedure Used
ANSI C63.10-2013 – Section 6.6.4.3
Test Settings
Average Field Strength Measurements per Section 4.1.4.2.3 of ANSI C63.10-2013
1. Analyzer center frequency was set to the frequency of the radiated spurious emission of interest
2. RBW = 1MHz
3. VBW = 1kHz  1/Hz, where  = pulse width in seconds
4. Averaging type was set to RMS to ensure that video filtering was applied in the power domain
5. Detector = peak
6. Sweep time = auto
7. Trace mode = max hold
8. Trace was allowed to stabilize
Peak Field Strength Measurements per Section 4.1.4.2.2 of ANSI C63.10-2013
1. Analyzer center frequency was set to the frequency of the radiated spurious emission of interest
2. RBW is set depending on measurement frequency, as specified in Table 7-6 below
3. VBW = 3MHz
4. Detector = peak
5. Sweep time = auto couple
6. Trace mode = max hold
7. Trace was allowed to stabilize
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Frequency
RBW
9 – 150kHz
200 – 300Hz
0.15 – 30MHz
9 – 10kHz
30 – 1000MHz
100 – 120kHz
> 1000MHz
1MHz
Table 7-6. RBW as a Function of Frequency
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-8. Radiated Test Setup >1GHz
Test Notes
1. All emissions lying in restricted bands specified in §15.205 and Section 8.10 of RSS-Gen are below the limit
shown in Table 7-5.
2. No significant radiated emissions were found in the 2310 - 2390MHz restricted band.
3. The antenna is manipulated through typical positions, polarity and length during the tests. The EUT is
manipulated through three orthogonal planes.
4. This unit was tested with its standard battery.
5. The spectrum is measured from 9kHz to the 10th harmonic and the worst-case emissions are reported.
6. The duty cycle correction factor was not applied to noise floor measurements.
7. The wide spectrum spurious emissions plots shown on the following pages are used only for the purpose of
emission identification. Any emissions found to be within 20dB of the limit are fully investigated and the results
are shown in this section.
8. The "-" shown in the following RSE tables are used to denote a noise floor measurement.
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Sample Calculation
Field Strength Level [dBV/m] = Analyzer Level [dBm] + 107 + AFCL [dB/m] + Duty Cycle Correction [dB]
AFCL [dB/m] = Antenna Factor [dB/m] + Cable Loss [dB]
Margin [dB] = Field Strength Level [dBV/m] – Limit [dBV/m]
Duty Cycle Correction Factor Calculation
Channel hop rate = 800 hops/second (AFH Mode)
Adjusted channel hop rate for DH5 mode = 133.33 hops/second
Time per channel hop = 1 / 133.33 hops/second = 7.50 ms
Time to cycle through all channels = 7.50 x 20 channels = 150 ms
Number of times transmitter hits on one channel = 100 ms / 150 ms = 1 time(s)
Worst case dwell time = 7.5 ms
Duty cycle correction factor = 20log10(7.5ms/100ms) = -22.5 dB
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Radiated Spurious Emission Measurements
§15.205 §15.209 §15.247 (d); RSS-Gen [8.9]
Plot 7-42. Radiated Spurious Plot above 1GHz (BT – Ch. 0, Ant. Pol. H)
Plot 7-43. Radiated Spurious Plot above 1GHz (BT – Ch. 0, Ant. Pol. V)
Plot 7-44. Radiated Spurious Plot above 1GHz (BT – Ch. 39, Ant. Pol. H)
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Plot 7-45. Radiated Spurious Plot above 1GHz (BT – Ch. 39, Ant. Pol. V)
Plot 7-46. Radiated Spurious Plot above 1GHz (BT – Ch. 78, Ant. Pol. H)
Plot 7-47. Radiated Spurious Plot above 1GHz (BT – Ch. 78, Ant. Pol. V)
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Radiated Spurious Emissions Measurements (Above 18GHz)
§15.209; RSS-Gen [8.9]
Plot 7-48. Radiated Spurious Plot above 18GHz (Pol. H)
Plot 7-49. Radiated Spurious Plot above 18GHz (Pol. V)
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Radiated Spurious Emission Measurements
§15.205 §15.209 §15.247 (d); RSS-Gen [8.9]
Worst Case Mode:
Worst Case Data Rate:
Measurement Distance:
Operating Frequency:
Channel:
Frequency
Detector
[MHz]
Ant.
Pol.
[H/V]
Bluetooth
1 Mbps
3 Meters
2402MHz
Antenna Turntable Analyzer
Height
Azimuth
Level
[cm]
[degree]
[dBm]
AFCL
[dB/m]
Duty Cycle
Field
Limit
Correction Strength
[dBμV/m]
[dB]
[dBμV/m]
Margin
[dB]
4804.00
Avg
210
326
-77.19
2.42
-22.50
9.74
53.98
-44.24
4804.00
Peak
210
326
-64.55
2.42
0.00
44.87
73.98
-29.10
12010.00
Avg
-79.08
13.48
0.00
41.40
53.98
-12.58
12010.00
Peak
-65.96
13.48
0.00
54.52
73.98
-19.46
Table 7-7. Radiated Measurements
Worst Case Mode:
Worst Case Data Rate:
Measurement Distance:
Operating Frequency:
Channel:
Frequency
Detector
[MHz]
Ant.
Pol.
[H/V]
Bluetooth
1 Mbps
3 Meters
2441MHz
39
Antenna Turntable Analyzer
Height
Azimuth
Level
[cm]
[degree]
[dBm]
AFCL
[dB/m]
Duty Cycle
Field
Limit
Correction Strength
[dBμV/m]
[dB]
[dBμV/m]
Margin
[dB]
4882.00
Avg
164
255
-69.57
3.36
-22.50
18.29
53.98
-35.69
4882.00
Peak
164
255
-64.20
3.36
0.00
46.16
73.98
-27.82
7323.00
Avg
-76.66
9.71
0.00
40.05
53.98
-13.93
7323.00
Peak
-64.64
9.71
0.00
52.07
73.98
-21.91
12205.00
Avg
-79.83
13.88
0.00
41.05
53.98
-12.93
12205.00
Peak
-66.45
13.88
0.00
54.43
73.98
-19.55
Table 7-8. Radiated Measurements
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 47 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
Radiated Spurious Emission Measurements
§15.205 §15.209 §15.247 (d); RSS-Gen [8.9]
Worst Case Mode:
Worst Case Data Rate:
Measurement Distance:
Operating Frequency:
Channel:
Frequency
Detector
[MHz]
Ant.
Pol.
[H/V]
Bluetooth
1 Mbps
3 Meters
2480MHz
78
Antenna Turntable Analyzer
Azimuth
Height
Level
[degree]
[cm]
[dBm]
AFCL
[dB/m]
Field
Duty Cycle
Limit
Correction Strength
[dBμV/m]
[dBμV/m]
[dB]
Margin
[dB]
4960.00
Avg
222
167
-75.58
2.62
-22.50
11.54
53.98
-42.44
4960.00
Peak
222
167
-64.50
2.62
0.00
45.12
73.98
-28.86
7440.00
Avg
-78.90
9.48
0.00
37.58
53.98
-16.40
7440.00
Peak
-65.49
9.48
0.00
50.99
73.98
-22.99
12400.00
Avg
-79.18
12.93
0.00
40.75
53.98
-13.23
12400.00
Peak
-65.74
12.93
0.00
54.19
73.98
-19.79
Table 7-9. Radiated Measurements
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 48 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
7.10
Radiated Restricted Band Edge Measurements
§15.205 §15.209 §15.247 (d); RSS-Gen [8.9]
The radiated restricted band edge measurements are measured with an EMI test receiver connected to the
receive antenna while the EUT is transmitting. Two different amplitude offsets were used depending on whether
peak or average measurements were measured. The average measurements use a duty cycle correction factor
(DCCF).
The amplitude offset shown in the following plots for average measurements was calculated using the formula:
Offset (dB) = (Antenna Factor + Cable Loss + Attenuator) – Preamplifier Gain + DCCF
Worst Case Mode:
Worst Case Data Rate:
Measurement Distance:
Operating Frequency:
Channel:
Bluetooth
1 Mbps
3 Meters
2480MHz
78
* RBW 1 MHz
* VBW 1 kHz
Ref
* Att
101 dBµV
100 Offset
10 dB
SWT 25 ms
* RBW 1 MHz
Marker 1 [T1 ]
35.04 dBµV
2.483500000 GHz
* VBW 3 MHz
Ref
-16 dB
LIMIT CHECK
120
PASS
SGL
90
123.5 dBµV
Offset
* Att
10 dB
SWT 2.5 ms
Marker 2 [T2 ]
60.17 dBµV
2.483516026 GHz
6.5 dB
LIMIT CHECK
PASS
SGL
110
1 PK
MAXH
80
LVL
LVL
100
2 PK
MAXH
70
90
PS
PS
60
80
FCC15CAV
FCC15CPK
50
SWP
100 of
70
100
40
3DB
AC
3DB
AC
60
30
50
20
40
10
30
Center
2.4835 GHz
Date: 17.OCT.2017
1 MHz/
Span
10 MHz
12:16:33
Center
2.4835 GHz
Date: 17.OCT.2017
Plot 7-50. Radiated Restricted Upper Band Edge
Measurement (Average)
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Span
10 MHz
12:17:03
Plot 7-51. Radiated Restricted Upper Band Edge
Measurement (Peak)
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
1 MHz/
Approved by:
Quality Manager
Page 49 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
7.11
Radiated Spurious Emissions Measurements – Below 1GHz
§15.209; RSS-Gen [8.9]
Test Overview and Limit
All out of band radiated spurious emissions are measured with a spectrum analyzer connected to a receive
antenna while the EUT is operating at its maximum duty cycle, at maximum power, and at the appropriate
frequencies. All data rates and modes were investigated for radiated spurious emissions. Only the radiated
emissions of the configuration that produced the worst case emissions are reported in this section.
All out of band emissions appearing in a restricted band as specified in Section 15.205 of the Title 47 CFR
and Table 6 of RSS-Gen (8.10) must not exceed the limits shown in Table 7-10 per Section 15.209 and
RSS-Gen (8.9).
Frequency
Field Strength
[V/m]
Measured Distance
[Meters]
0.009 – 0.490 MHz
0.490 – 1.705 MHz
1.705 – 30.00 MHz
30.00 – 88.00 MHz
88.00 – 216.0 MHz
216.0 – 960.0 MHz
Above 960.0 MHz
2400/F (kHz)
24000/F (kHz)
30
100
150
200
500
300
30
30
Table 7-10. Radiated Limits
Test Procedures Used
ANSI C63.10-2013
Test Settings
Quasi-Peak Field Strength Measurements
1. Analyzer center frequency was set to the frequency of the radiated spurious emission of interest
2. RBW = 120kHz (for emissions from 30MHz – 1GHz)
3. Detector = quasi-peak
4. Sweep time = auto couple
5. Trace mode = max hold
6. Trace was allowed to stabilize
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 50 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
Test Setup
The EUT and measurement equipment were set up as shown in the diagrams below.
Figure 7-9. Radiated Test Setup < 30Mhz
Figure 7-10. Radiated Test Setup < 1GHz
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 51 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
Test Notes
1. All emissions lying in restricted bands specified in §15.205 and RSS-Gen (8.10) are below the limit shown
in Table 7-10.
2. The broadband receive antenna is manipulated through vertical and horizontal polarizations during the
tests. The EUT is manipulated through three orthogonal planes.
3. This unit was tested with its standard battery.
4. The spectrum is investigated using a peak detector and final measurements are recorded using CISPR
quasi peak detector. The worst-case emissions are reported however emissions whose levels were not
within 20dB of the respective limits were not reported.
5. Emissions were measured at a 3 meter test distance.
6. Emissions are investigated while operating on the center channel of the mode, band, and modulation that
produced the worst case results during the transmitter spurious emissions testing.
7. No spurious emissions were detected within 20dB of the limit below 30MHz.
8. The results recorded using the broadband antenna is known to correlate with the results obtained by
using a tuned dipole with an acceptable degree of accuracy. The VSWR for the measurement antenna
was found to be less than 2:1.
9. The wide spectrum spurious emissions plots shown on the following pages are used only for the purpose
of emission identification. There were no emissions detected in the 30MHz – 1GHz frequency range, as
shown in the subsequent plots.
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 52 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
Radiated Spurious Emissions Measurements (Below 1GHz)
§15.209; RSS-Gen [8.9]
Plot 7-52. Radiated Spurious Plot below 1GHz (Pol. H)
Plot 7-53. Radiated Spurious Plot below 1GHz (Pol. V)
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 53 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
7.12
Line Conducted Measurement Data
§15.207; RSS-Gen [8.8]
Test Overview and Limit
All AC line conducted spurious emissions are measured with a receiver connected to a grounded LISN while the
EUT is operating at its maximum duty cycle, at maximum power, and at the appropriate frequencies. All data rates
and modes were investigated for conducted spurious emissions. Only the conducted emissions of the
configuration that produced the worst case emissions are reported in this section.
All conducted emissions must not exceed the limits shown in the table below, per Section 15.207 and
RSS-Gen (8.8).
Frequency of emission
(MHz)
Conducted Limit (dBV)
Quasi-peak
66 to 56*
56
60
0.15 – 0.5
0.5 – 5
5 – 30
Average
56 to 46*
46
50
Table 7-11. Conducted Limits
*Decreases with the logarithm of the frequency.
Test Procedures Used
ANSI C63.10-2013, Section 6.2
Test Settings
Quasi-Peak Field Strength Measurements
1. Analyzer center frequency was set to the frequency of the spurious emission of interest
2. RBW = 9kHz (for emissions from 150kHz – 30MHz)
3. Detector = quasi-peak
4. Sweep time = auto couple
5. Trace mode = max hold
6. Trace was allowed to stabilize
Average Field Strength Measurements
1. Analyzer center frequency was set to the frequency of the spurious emission of interest
2. RBW = 9kHz (for emissions from 150kHz – 30MHz)
3. Detector = RMS
4. Sweep time = auto couple
5. Trace mode = max hold
6. Trace was allowed to stabilize
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 54 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
Test Setup
The EUT and measurement equipment were set up as shown in the diagram below.
Figure 7-11. Test Instrument & Measurement Setup
Test Notes
1.
All modes of operation were investigated and the worst-case emissions are reported using mid channel.
The emissions found were not affected by the choice of channel used during testing.
2.
The limit for an intentional radiator from 150kHz to 30MHz are specified in 15.207 and RSS-Gen (8.8).
3.
Corr. (dB) = Cable loss (dB) + LISN insertion factor (dB)
4.
QP/AV Level (dBV) = QP/AV Analyzer/Receiver Level (dBV) + Corr. (dB)
5.
Margin (dB) = QP/AV Limit (dBV) - QP/AV Level (dBV)
6.
Traces shown in plot are made using a peak detector.
7.
Deviations to the Specifications: None.
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 55 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
Plot 7-54. Line-Conducted Test Plot (L1)
Plot 7-55. Line-Conducted Test Plot (N)
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 56 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
8.0
CONCLUSION
The data collected relate only to the item(s) tested and show that the Samsung Portable Handset
FCC ID: A3LSMA730F is in compliance with Part 15 Subpart C (15.247) of the FCC Rules and RSS-247 of the
Industry Canada rules.
MEASUREMENT REPORT
(CERTIFICATION)
FCC ID: A3LSMA730F
Test Report S/N:
Test Dates:
EUT Type:
1M1710050266-08.A3L
10/5-11/6/2017
Portable Handset
Approved by:
Quality Manager
Page 57 of 57
© 2017 PCTEST Engineering Laboratory, Inc.
V 7 9/25/2017
All rights reserved. Unless otherwise specified, no part of this report may be reproduced or utilized in any part, form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from PCTEST Engineering Laboratory, Inc. If you have any questions about this international copyright or have an enquiry about obtaining additional
rights to this report or assembly of contents thereof, please contact [email protected]
Download: SMA730F Multi-band GSM/EDGE/UMTS/LTE Phone with Bluetooth, WLAN, RFID and ANT+ Test Report MASTER RF Bluetooth Samsung Electronics Co Ltd
Mirror Download [FCC.gov]SMA730F Multi-band GSM/EDGE/UMTS/LTE Phone with Bluetooth, WLAN, RFID and ANT+ Test Report MASTER RF Bluetooth Samsung Electronics Co Ltd
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