CC31xx/CC32xx Test Report for ETSI EN 300 328 V1.8.1

ONE WORLD
OUR APPROVAL
Test report
264561-4TRFWL
Date of issue: November 20, 2014
Applicant:
Texas Instruments Inc.
Product:
CC3100 Booster-pack
Model:
CC3100MODR11MAMOB
Specifications:
 ETSI EN 300 328 V1.8.1 (2012-06)
Electromagnetic compatibility and Radio spectrum Matters (ERM);
Wideband transmission systems; Data transmission equipment
operating in the 2.5 GHz ISM band and using wide band modulation
techniques; Harmonized EN covering essential requirements under
article 3.2 of the R&TTE directive
www.nemko.com
Nemko Canada Inc., a testing laboratory, is
accredited by the Standards Council of
Canada. The tests included in this report
are within the scope of this accreditation
ETSI EN 300 328 1.8.1 DTS; Date: May 2013
SCC Accredited
LAB
LAB
Accrédité CCN
TM
Test location
Company name:
Address:
City:
Province:
Postal code:
Country:
Telephone:
Facsimile:
Toll free:
Website:
Nemko Canada Inc.
303 River Road
Ottawa
Ontario
K1V 1H2
Canada
+1 613 737 9680
+1 613 737 9691
+1 800 563 6336
www.nemko.com
Tested by:
Kevin Rose, Wireless/EMC Specialist
Andrey Adelberg, Senior Wireless/EMC Specialist
November 20, 2014
Reviewed by:
Date:
Signature:
Limits of responsibility
Note that the results contained in this report relate only to the items tested and were obtained in the period between the date of initial receipt of samples
and the date of issue of the report.
This test report has been completed in accordance with the requirements of ISO/IEC 17025. All results contain in this report are within Nemko Canada’s
ISO/IEC 17025 accreditation.
Copyright notification
Nemko Canada Inc. authorizes the applicant to reproduce this report provided it is reproduced in its entirety and for use by the company’s employees only.
Any use which a third party makes of this report, or any reliance on or decisions to be made based on it, are the responsibility of such third parties.
Nemko Canada Inc. accepts no responsibility for damages, if any, suffered by any third party as a result of decisions made or actions based on this report.
© Nemko Canada Inc.
Report reference ID: 264561-4TRFWL
Page 2 of 29
Table of contents
Table of contents .......................................................................................................................................................................................................... 3
Section 1.
Report summary ................................................................................................................................................................................. 4
1.1
Applicant and manufacturer .................................................................................................................................................................................... 4
1.2
Test specifications .................................................................................................................................................................................................... 4
1.3
Statement of compliance ......................................................................................................................................................................................... 4
1.4
Exclusions ................................................................................................................................................................................................................. 4
1.5
Test report revision history ...................................................................................................................................................................................... 4
Section 2.
Summary of test results ....................................................................................................................................................................... 5
2.1
ETSI EN 300 328 V1.8.1 (2012-06) test results .......................................................................................................................................................... 5
Section 3.
Equipment under test (EUT) details ..................................................................................................................................................... 6
3.1
Sample information .................................................................................................................................................................................................. 6
3.2
EUT information ....................................................................................................................................................................................................... 6
3.3
Technical information .............................................................................................................................................................................................. 6
3.4
Product description and theory of operation ........................................................................................................................................................... 6
3.5
EUT exercise details .................................................................................................................................................................................................. 6
3.6
EUT setup diagram ................................................................................................................................................................................................... 6
Section 4.
Engineering considerations .................................................................................................................................................................. 7
4.1
Modifications incorporated in the EUT..................................................................................................................................................................... 7
4.2
Technical judgment .................................................................................................................................................................................................. 7
4.3
Deviations from laboratory tests procedures ........................................................................................................................................................... 7
Section 5.
Test conditions .................................................................................................................................................................................... 8
5.1
Atmospheric conditions ........................................................................................................................................................................................... 8
5.2
Power supply range .................................................................................................................................................................................................. 8
5.3
Regulated lead-acid battery power sources ............................................................................................................................................................. 8
5.4
Other power sources ................................................................................................................................................................................................ 8
Section 6.
Measurement uncertainty ................................................................................................................................................................... 9
6.1
Uncertainty of measurement ................................................................................................................................................................................... 9
Section 7.
Test equipment ................................................................................................................................................................................. 10
7.1
Test equipment list ................................................................................................................................................................................................. 10
Section 8.
Testing data ...................................................................................................................................................................................... 11
8.1
EN 300 328 Clause 4.3.2.1 RF output power .......................................................................................................................................................... 11
8.2
EN 300 328 Clause 4.3.2.2 Power Spectral Density ................................................................................................................................................ 14
8.3
EN 300 328 Clause 4.3.2.5 Adaptivity (adaptive equipment using modulations other than FHSS) ......................................................................... 15
8.4
EN 300 328 Clause 4.3.2.6 Occupied Channel Bandwidth ...................................................................................................................................... 19
8.5
EN 300 328 Clause 4.3.2.7 Transmitter unwanted emissions in the out-of-band domain ...................................................................................... 21
8.6
EN 300 328 Clause 4.3.2.8 Transmitter unwanted emissions in the spurious domain ........................................................................................... 23
8.7
EN 300 328 Clause 4.3.2.9 Receiver spurious emissions......................................................................................................................................... 26
8.8
Clause 4.3.2.10 Receiver blocking .......................................................................................................................................................................... 28
Section 9.
Block diagrams of test set-ups ........................................................................................................................................................... 29
9.1
Radiated emissions set-up...................................................................................................................................................................................... 29
Report reference ID: 264561-4TRFWL
Page 3 of 29
Section 1
Section 1.
1.1
Report summary
Report summary
Applicant and manufacturer
Company name
Address
City
Province/State
Postal/Zip code
Country
1.2
Texas Instruments Inc.
12500 TI Boulevard
Dallas
Texas
75243
USA
Test specifications
ETSI EN 300 328 V1.8.1 (2012-06)
1.3
Electromagnetic compatibility and Radio spectrum Matters (ERM); Wideband transmission systems; Data transmission
equipment operating in the 2.5 GHz ISM band and using wide band modulation techniques; Harmonized EN covering
essential requirements under article 3.2 of the R&TTE directive
Statement of compliance
In the configuration tested, the EUT was found compliant.
Testing was completed against all relevant requirements of the test standard. Results obtained indicate that the product under test complies in full with the
requirements tested. The test results relate only to the items tested.
See “Summary of test results” for full details.
1.4
Exclusions
None
1.5
Test report revision history
Revision #
TRF
Details of changes made to test report
Original report issued
Report reference ID: 264561-4TRFWL
Page 4 of 29
Section 2:
Section 2.
2.1
Summary of test results
Summary of test results
ETSI EN 300 328 V1.8.1 (2012-06) test results
Clause
Test description
Verdict
4.3.1
Technical requirements for Frequency Hopping equipment
Not applicable1
4.3.2
Technical requirements for other types of Wide Band modulation
Applicable
4.3.2.1
RF ouput power
Pass
4.3.2.2
Power Spectral Density
Pass
4.3.2.3
Duty Cycle, Tx-sequence, Tx-gap
Not applicable2
4.3.2.4
Medium Utilisation (MU) factor
Not applicable2
4.3.2.5
Adaptivity (adaptive equipment using modulations other than FHSS)
Pass
4.3.2.6
Occupied Channel Bandwidth
Pass
4.3.2.7
Transmitter unwanted emissions in the out-of-band domain
Pass
4.3.2.8
Transmitter unwanted emissions in the spurious domain
Pass
4.3.2.9
Receiver spurious emissions
Not applicable4
4.3.2.10
Receiver Blocking
Not applicable4
Notes: 1The EUT is not frequency hopping device.
2
This requirement does not apply for equipment with a maximum declared RF Output power level of less than 10 dBm e.i.r.p. or for equipment when
operating in a mode where the RF Output power is less than 10 dBm e.i.r.p.
3
This requirement does not apply to non-adaptive equipment or adaptive equipment operating in a non-adaptive mode providing the equipment
complies with the requirements and/or restrictions applicable to non-adaptive equipment
4
This EUT is not a receiver.
Report reference ID: 264561-4TRFWL
Page 5 of 29
Section 3:
Section 3.
3.1
Equipment under test (EUT) details
Equipment under test (EUT) details
Sample information
Receipt date
Nemko sample ID number
3.2
EUT information
Product name
Model
Serial number
3.3
CC3100 Booster-pack
CC3100MODR11MAMOB
N/A
Technical information
Operating band
Operating frequency
Modulation type
Power requirements
Antenna information
3.4
July 21, 2014
4 and 5
2400–2483.5 MHz
2412–2462 MHz
802.11b/g/n
230 VAC, 50 Hz via Laptop power adapter connected with USB cord to EUT
Taiyo Yuden 2.4 GHz Multilayer RadiEdge Antenna, MN: AH 316M245001, Peak Gain: 1.9 dBi
The EUT uses a unique antenna coupling/ non-detachable antenna to the intentional radiator.
Product description and theory of operation
The EUT is designed to be used as a standalone development platform for application development using the CC3100 device. It can be also used in
conjunction with compatible booster-packs to enhance the peripherals available in the system. The board features on-board emulation using FTDI device
and has an array of sensors for an out of the box experience. This board can be directly connected to the PC using software development platforms
including CCS and IAR.
3.5
EUT exercise details
There were 2 samples provided for testing: one with the permanent antenna and the second one is with the 50 Ω antenna cable for conducted
measurements. EUT was controlled from laptop using Radio Tool 0.5 CLI application.
3.6
EUT setup diagram
Figure 3.6-1: Setup diagram
Report reference ID: 264561-4TRFWL
Page 6 of 29
Section 4:
Section 4.
4.1
Engineering consideration
Engineering considerations
Modifications incorporated in the EUT
There were no modifications performed to the EUT during this assessment.
4.2
Technical judgment
As per manufacture request the CC3200MODR1M2AMOB model was considered as a representative sample and all the tests were performed on it.
CC3100MODR11MAMOB is a depopulated version of the CC3200MODR1M2AMOB and therefor was deemed compliant.
4.3
Deviations from laboratory tests procedures
No deviations were made from laboratory procedures.
Report reference ID: 264561-4TRFWL
Page 7 of 29
Section 6:
Section 5.
5.1
Measurement uncertainty
Test conditions
Atmospheric conditions
Temperature
Relative humidity
Air pressure
15–30 °C
20–75 %
860–1060 mbar
When it is impracticable to carry out tests under these conditions, a note to this effect stating the ambient temperature and relative humidity during the
tests shall be recorded and stated.
5.2
Power supply range
The normal test voltage for equipment to be connected to the mains shall be the nominal mains voltage. For the purpose of the present document, the
nominal voltage shall be the declared voltage, or any of the declared voltages, for which the equipment was designed.
The frequency of the test power source corresponding to the ac mains shall be between 49 Hz and 51 Hz.
5.3
Regulated lead-acid battery power sources
When the radio equipment is intended for operation from the usual types of regulated lead-acid battery power source the normal test voltage shall be 1.1
multiplied by the nominal voltage of the battery (6 V, 12 V, etc.).
5.4
Other power sources
For operation from other power sources or types of battery (primary or secondary), the normal test voltage shall be that declared by the equipment
manufacturer and where appropriate agreed by the accredited test laboratory. Such values shall be recorded and stated.
Report reference ID: 264561-4TRFWL
Page 8 of 29
Section 6:
Section 6.
6.1
Measurement uncertainty
Measurement uncertainty
Uncertainty of measurement
Nemko Canada Inc. has calculated measurement uncertainty and is documented in EMC/MUC/001 “Uncertainty in EMC measurements.” Measurement
uncertainty was calculated using the methods described in CISPR 16-4 Specification for radio disturbance and immunity measuring apparatus and methods –
Part 4: Uncertainty in EMC measurements; as well as described in UKAS LAB34: The expression of Uncertainty in EMC Testing. Measurement uncertainty
calculations assume a coverage factor of K=2 with 95% certainty.
Report reference ID: 264561-4TRFWL
Page 9 of 29
Section 7:
Section 7.
7.1
Test equipment
Test equipment
Test equipment list
Table 7.1-1: Equipment list
Equipment
Manufacturer
3 m EMI test chamber
TDK
Flush mount turntable
Sunol
Controller
Sunol
Antenna mast
Sunol
Horn antenna (1–18 GHz)
EMCO
Pre-amplifier (1–18 GHz)
JCA
Bilog antenna (20–3000 MHz)
Sunol
50 Ω coax cable
C.C.A.
50 Ω coax cable
Huber + Suhner
Horn antenna 18–40 GHz
EMCO
18–26 GHz pre-amplifier
Narda
Temperature chamber
Thermotron
Multimeter
Fluke
Note: NCR - no calibration required, VOU - verify on use
Report reference ID: 264561-4TRFWL
Model no.
SAC-3
FM2022
SC104V
TLT2
3115
JCA118-503
JB3
None
NONE
3116
BBS-1826N612
SM-16C
16
Asset no.
FA002047
FA002082
FA002060
FA002061
FA000825
FA002091
FA002108
FA002555
FA002074
FA001847
FA001550
FA001030
FA001831
Cal cycle
1 year
—
—
—
1 year
1 year
1 year
1 year
1 year
2 year
—
1 year
1 year
Next cal.
Mar. 18/15
NCR
NCR
NCR
Mar. 10/15
June 23/15
Mar. 12/15
June 23/15
June 23/15
Sept. 06/14
VOU
NCR
Feb. 04/15
Page 10 of 29
Section 8
Test name
Specification
Section 8.
8.1
Testing data
Clause 4.3.2.1 RF output power
ETSI EN 300 328 V1.8.1 (2012)
Testing data
EN 300 328 Clause 4.3.2.1 RF output power
8.1.1
Definitions and limits
The RF output power is defined as the mean equivalent isotropic radiated power (e.i.r.p.) of the equipment during a
transmission burst.
For adaptive equipment using wide band modulations other than FHSS, the maximum RF output power shall be20 dBm.
Definition
The maximum RF output power for non-adaptive equipment shall be declared by the supplier and shall not exceed 20 dBm.
See clause 5.3.1 m). For non-adaptive equipment using wide band modulations other than FHSS, the maximum RF output
power shall be equal to or less than the value declared by the supplier.
This limit shall apply for any combination of power level and intended antenna assembly.
Clause 4.3.2.1.2 limit
8.1.2
Test summary
Test date
Test engineer
Verdict
8.1.3
July 28, 2014
Kevin Rose
Pass
Temperature
Air pressure
Relative humidity
21 °C
1003 mbar
38 %
Observations, settings and special notes
The measurements for RF output power shall be performed at both normal environmental conditions and at the extremes of the operating temperature
range.
Resolution bandwidth
Video bandwidth
Detector mode
Power integration
Trace mode
100 kHz
300 kHz
RMS
Over the channel BW
Power average over 100 sweeps
Report reference ID: 264561-4TRFWL
Page 11 of 29
Section 8
Test name
Specification
8.1.4
Testing data
Clause 4.3.2.1 RF output power
ETSI EN 300 328 V1.8.1 (2012)
Test data
Table 8.1-1: Output power measurements results 23 degrees 230 Vac
Modulation
802.11b
802.11g
802.11n
Frequency,
MHz
2412
2437
2472
2412
2437
2472
2412
2437
2472
Conducted output power, dBm
Antenna gain, dBi
12.18
14.14
12.43
12.75
14.64
12.65
11.43
14.20
12.66
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
EIRP,
dBm
14.08
16.04
14.33
14.65
16.54
14.55
13.33
16.1
14.56
EIRP limit,
dBm
20
20
20
20
20
20
20
20
20
EIRP margin, dB
5.92
3.96
5.67
5.35
3.46
5.45
6.67
3.90
5.44
Table 8.1-2: Output power measurements results -20 degrees 90 Vac
Modulation
802.11b
802.11g
802.11n
Frequency,
MHz
2412
2437
2472
2412
2437
2472
2412
2437
2472
Conducted output power, dBm
Antenna gain, dBi
13.19
14.81
12.84
13.11
14.87
12.98
11.87
14.72
12.83
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
EIRP,
dBm
15.09
16.71
14.74
15.01
16.77
14.88
13.77
16.62
14.73
EIRP limit,
dBm
20
20
20
20
20
20
20
20
20
EIRP margin, dB
4.91
3.29
5.26
4.99
3.23
5.12
6.23
3.38
5.27
Table 8.1-3: Output power measurements results -20 degrees 264 Vac
Modulation
802.11b
802.11g
802.11n
Frequency,
MHz
2412
2437
2472
2412
2437
2472
2412
2437
2472
Conducted output power, dBm
Antenna gain, dBi
13.21
14.75
12.83
13.14
14.79
12.93
11.91
14.75
12.81
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
EIRP,
dBm
15.11
16.65
14.73
15.04
16.69
14.83
13.81
16.65
14.71
EIRP limit,
dBm
20
20
20
20
20
20
20
20
20
EIRP margin, dB
4.89
3.35
5.27
4.96
3.31
5.17
6.19
3.35
5.29
Table 8.1-4: Output power measurements results 70 degrees 90 Vac
Modulation
802.11b
802.11g
802.11n
Frequency,
MHz
2412
2437
2472
2412
2437
2472
2412
2437
2472
Report reference ID: 264561-4TRFWL
Conducted output power, dBm
Antenna gain, dBi
11.14
12.88
10.58
12.33
14.13
12.65
11.71
14.42
12.66
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
EIRP,
dBm
13.04
14.78
12.48
14.23
16.03
14.55
13.61
16.32
14.56
EIRP limit,
dBm
20
20
20
20
20
20
20
20
20
EIRP margin, dB
6.96
5.22
7.52
5.77
3.97
5.45
6.39
3.68
5.44
Page 12 of 29
Section 8
Test name
Specification
8.1.4
Testing data
Clause 4.3.2.1 RF output power
ETSI EN 300 328 V1.8.1 (2012)
Test data
Table 8.1-5: Output power measurements results 70 degrees 264 Vac
Modulation
802.11b
802.11g
802.11n
Frequency,
MHz
2412
2437
2472
2412
2437
2472
2412
2437
2472
Report reference ID: 264561-4TRFWL
Conducted output power, dBm
Antenna gain, dBi
11.07
12.72
10.61
12.19
14.18
12.53
11.82
14.36
12.52
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
EIRP,
dBm
12.97
14.62
12.51
14.09
16.08
14.43
13.72
16.26
14.42
EIRP limit,
dBm
20
20
20
20
20
20
20
20
20
EIRP margin, dB
7.03
5.38
7.49
5.91
3.92
5.57
6.28
3.74
5.58
Page 13 of 29
Section 8
Test name
Specification
8.2
Testing data
Clause 4.3.2.2 Power Spectral Density
ETSI EN 300 328 V1.8.1 (2012)
EN 300 328 Clause 4.3.2.2 Power Spectral Density
8.2.1
Definitions and limits
The Power Spectral Density is the mean equivalent isotropically radiated power (e.i.r.p.) spectral density during a
transmission burst.
These measurements shall only be performed at normal test conditions.
For equipment using wide band modulations other than FHSS, the maximum Power Spectral Density is limited to 10 dBm per
MHz.
Definition
Clause 4.3.2.2.2 limit
8.2.2
Test summary
Test date
Test engineer
Verdict
8.2.3
July 28, 2014
Kevin Rose
Pass
Temperature
Air pressure
Relative humidity
21 °C
1003 mbar
38 %
Observations, settings and special notes
The measurement shall be repeated for the equipment being configured to operate at the lowest, the middle, and the highest frequency of the stated
frequency range. These frequencies shall be recorded.
These measurements shall only be performed at normal test conditions
The emissions over the range 2400 MHz to 2483.5 MHz. Spectrum analyser settings:
Resolution bandwidth:
10 kHz
Video bandwidth:
30 kHz
Detector mode:
RMS
Trace mode:
Max Hold
Sweep Points:
≥ 8350
8.2.4
Test data
Table 8.2-1: Power Spectral Density limits
Modulation
802.11b
802.11g
802.11n
Frequency, MHz
2412
2437
2472
2412
2437
2472
2412
2437
2472
Report reference ID: 264561-4TRFWL
Limit, dBm
10
10
10
10
10
10
10
10
10
Level, dBm
5.73
7.72
5.75
4.30
6.19
4.16
2.83
5.62
3.05
Margin, dB
4.27
2.28
4.25
5.70
3.81
5.84
7.17
4.38
6.95
Page 14 of 29
Section 8
Test name
Specification
8.3
Testing data
EN 300 328, Clause 4.3.2.5 Adaptivity (adaptive equipment using modulations other than FHSS)
ETSI EN 300 328 V1.8.1 (2012)
EN 300 328 Clause 4.3.2.5 Adaptivity (adaptive equipment using modulations other than FHSS)
8.3.1
Definitions and limits
Non-LBT based Detect and Avoid is a mechanism for equipment using wide band modulations other than FHSS and by which a
given channel is made 'unavailable' because interference was reported after the transmission in that channel.
1) During normal operation, the equipment shall evaluate the presence of a signal on its current operating channel. If it is
determined that a signal is present with a level above the detection threshold defined in 4). the channel shall be marked as
'unavailable'.
2) The channel shall remain unavailable for a minimum time equal to 1 s after which the channel may be considered again as
an 'available' channel.
3) The total time during which equipment has transmissions on a given channel without re-evaluating the availability of that
channel, is defined as the Channel Occupancy Time.
4) The Channel Occupancy Time shall be less than 40 ms. Each such transmission sequence shall be followed with an Idle
Period (no transmissions) of minimum 5 % of the Channel Occupancy Time with a minimum of 100 μs.
After this, the procedure as in step 1 needs to be repeated.
5) The detection threshold shall be proportional to the transmit power of the transmitter: for a 20 dBm e.i.r.p. transmitter the
detection threshold level (TL) shall be equal or lower than -70 dBm/MHz at the input to the receiver (assuming a 0 dBi receive
antenna). For power levels below 20 dBm e.i.r.p., the detection threshold level may be relaxed to TL = -70 dBm/MHz + 20 Pout e.i.r.p. (Pout in dBm).
Definition:
Clause 4.3.2.5.1.2 limit
8.3.2
Test summary
Test date:
Test engineer:
Verdict:
8.3.3
January 17, 2014
David Light
Pass
Temperature:
Air pressure:
Relative humidity:
22 °C
1003 mbar
26 %
Observations, settings and special notes
Note: Test was performed on January 17 2014 test report 2014_251898_EU_300328
Report reference ID: 264561-4TRFWL
Page 15 of 29
Section 8
Test name
Specification
8.3.4
Testing data
EN 300 328, Clause 4.3.2.5 Adaptivity (adaptive equipment using modulations other than FHSS)
ETSI EN 300 328 V1.8.1 (2012)
Test data
Figure 8.3-1: 802.11b Low channel Fixed Frame Period plus CCA
Figure 8.3-2: Polling after interference -76.3 dBm/MHz with blocker @ -30
dBm
Figure 8.3-3: 802.11b high channel Fixed Frame Period plus CCA
Figure 8.3-4: Polling after interference -74.0 dBm/MHz with blocker @ -30
dBm
Report reference ID: 264561-4TRFWL
Page 16 of 29
Section 8
Test name
Specification
8.3.4
Testing data
EN 300 328, Clause 4.3.2.5 Adaptivity (adaptive equipment using modulations other than FHSS)
ETSI EN 300 328 V1.8.1 (2012)
Test data continued
Figure 8.3-5: 802.11g Low channel Fixed Frame Period plus CCA
Figure 8.3-6: Polling after interference -77.1 dBm/MHz with blocker @ -30
dBm
Figure 8.3-7: 802.11g high channel Fixed Frame Period plus CCA
Figure 8.3-8: Polling after interference -75.1 dBm/MHz with blocker @ -30
dBm
Report reference ID: 264561-4TRFWL
Page 17 of 29
Section 8
Test name
Specification
8.3.4
Testing data
EN 300 328, Clause 4.3.2.5 Adaptivity (adaptive equipment using modulations other than FHSS)
ETSI EN 300 328 V1.8.1 (2012)
Test data continued
Figure 8.3-9: 802.11n Low channel Fixed Frame Period plus CCA
Figure 8.3-10: Polling after interference -76.3 dBm/MHz with blocker @ -30
dBm
Figure 8.3-11: 802.11n high channel Fixed Frame Period plus CCA
Figure 8.3-12: Polling after interference -75.2 dBm/MHz with blocker @ -30
dBm
Report reference ID: 264561-4TRFWL
Page 18 of 29
Section 8
Test name
Specification
8.4
Testing data
EN 300 328, Clause 4.3.2.6 Occupied Channel Bandwidth
ETSI EN 300 328 V1.8.1 (2012)
EN 300 328 Clause 4.3.2.6 Occupied Channel Bandwidth
8.4.1
Definitions and limits
The Occupied Channel Bandwidth is the bandwidth that contains 99 % of the power of the signal.
These measurements shall only be performed at normal test conditions.
The Occupied Channel Bandwidth shall fall completely within the band given in clause 1. In addition, for non-adaptive systems
using wide band modulations other than FHSS and with e.i.r.p greater than 10 dBm, the occupied channel bandwidth shall be
less than 20 MHz.
Definition:
Clause 4.3.2.6.2 limit
8.4.2
Test summary
Test date
Test engineer
Verdict
8.4.3
July 28, 2014
Kevin Rose
Pass
Temperature
Air pressure
Relative humidity
21 °C
1003 mbar
38 %
Observations, settings and special notes
Receiver settings
Resolution bandwidth:
Video bandwidth:
Detector mode:
Trace mode:
100 kHz
300 kHz
RMS
Max Hold
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Page 19 of 29
Section 8
Test name
Specification
8.4.4
Testing data
EN 300 328, Clause 4.3.2.6 Occupied Channel Bandwidth
ETSI EN 300 328 V1.8.1 (2012)
Test data
Table 8.4-1: 99 % band edge 802.11 b results
Channel , MHz
2412
2472
Band edge results, MHz
2404.98
2469.02
Limit, MHz
2400
2483.5
Margin, MHz
4.98
14.48
Table 8.4-2: 99 % band edge 802.11 g results
Channel , MHz
2412
2472
Band edge results, MHz
2403.83
2470.13
Limit, MHz
2400
2483.5
Margin, MHz
3.83
13.37
Table 8.4-3: 99 % band edge 802.11 n results
Channel , MHz
2412
2472
Report reference ID: 264561-4TRFWL
Band edge results, MHz
2403.25
2470.75
Limit, MHz
2400
2483.5
Margin, MHz
3.25
12.75
Page 20 of 29
Section 8
Test name
Specification
8.5
Testing data
EN 300 328, Clause 4.3.2.7 Transmitter unwanted emissions in the out-of-band domain
ETSI EN 300 328 V1.8.1 (2012)
EN 300 328 Clause 4.3.2.7 Transmitter unwanted emissions in the out-of-band domain
8.5.1
Definitions and limits
Transmitter unwanted emissions in the out-of-band domain are emissions when the equipment is in Transmit mode, on
frequencies immediately outside the necessary bandwidth which results from the modulation process, but excluding
spurious.
The spurious emissions of the transmitter shall not exceed the values in Table 8.5-1 in the indicated bands
Definition:
Clause 4.3.2.7.2 limit
Table 8.5-1: Transmitter limits
Frequency range, MHz
Limit
2400–2BW to 2400−BW
-20 dBm
2400–BW to 2400
-10 dBm
2483.5 to 2483.5+BW
-10 dBm
2483.5+BW to 2483.5+2BW
-20 dBm
Notes: The above limit values apply to narrowband emissions, e.g. as caused by local oscillator leakage. The measurement bandwidth for such emissions
may be as small as necessary to achieve a reliable measurement result.
8.5.2
Test summary
Test date
Test engineer
Verdict
8.5.3
July 28, 2014
Kevin Rose
Pass
Temperature
Air pressure
Relative humidity
21 °C
1003 mbar
38 %
Observations, settings and special notes
Spurious domain
Out-of-band (OOB) domain
Allocated band
Out-of-band (OOB) domain
Spurious domain
A
B
C
2400 MHz − 2BW
2400 MHz − BW
A: −10 dBm/MHz (EIRP)
B: −20 dBm/MHz (EIRP)
C: Spurious domain limits
2400 MHz
2483.5 MHz
2483.5 MHz + BW 2483.5 MHz + 2BW
BW = Occupied channel bandwidth in MHz or 1 MHz, whichever is greater
Figure 8.5-1: Transmit mask
The emissions over the range Spectrum analyser settings:
Resolution bandwidth:
1 MHz
Video bandwidth:
3 MHz
Detector mode:
RMS
Trace mode:
Max Hold
Sweep Points:
≥ 9 970
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Testing data
EN 300 328, Clause 4.3.2.7 Transmitter unwanted emissions in the out-of-band domain
ETSI EN 300 328 V1.8.1 (2012)
Section 8
Test name
Specification
8.5.4
Test data
Table 8.5-2: Transmitter unwanted emissions in the out-of-band domain 802.11b
Frequency
range, MHz
2400 -2BW
2400 -1BW
2483.5 +1BW
2483.5 +2BW
23 degrees 230
VAC
Level, dBm
-43.16
-41.96
-42.17
-40.55
70 degrees
90 VAC
Level, dBm
-43.11
-42.68
-42.96
-41.76
70 degrees
264 VAC
Level, dBm
-43.21
-43.36
-43.72
-41.91
-20 degrees
90 VAC
Level, dBm
-41.08
-41.05
-41.05
-42.23
-20 degrees
264 VAC
Level, dBm
-41.59
-43.03
-41.56
-41.57
Limit, dBm
Minimum
margin, dB
-20
-10
-10
-20
21.08
31.05
31.05
21.76
Limit, dBm
Minimum
margin, dB
-20
-10
-10
-20
18.34
22.26
18.5
20.42
Limit, dBm
Minimum
margin, dB
-20
-10
-10
-20
18.03
19.34
16.93
18.97
Table 8.5-3: Transmitter unwanted emissions in the out-of-band domain 802.11g
Frequency
range, MHz
2400 -2BW
2400 -1BW
2483.5 +1BW
2483.5 +2BW
23 degrees 230
VAC
Level, dBm
-39.57
-31.56
-30.38
-41.62
70 degrees
90 VAC
Level, dBm
-43.26
-41.37
-43.26
-43.49
70 degrees
264 VAC
Level, dBm
-43.3
-41.13
-43.19
-43.56
-20 degrees
90 VAC
Level, dBm
-38.78
-32.26
-28.5
-40.42
-20 degrees
264 VAC
Level, dBm
-38.34
-32.39
-30.77
-42.46
Table 8.5-4: Transmitter unwanted emissions in the out-of-band domain 802.11n
Frequency
range, MHz
2400 -2BW
2400 -1BW
2483.5 +1BW
2483.5 +2BW
23 degrees 230
VAC
Level, dBm
-43.15
-33.34
-29.74
-39.81
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70 degrees
90 VAC
Level, dBm
-43.16
-33.64
-31.56
-38.97
70 degrees
264 VAC
Level, dBm
-42.5
-32.98
-33.07
-38.95
-20 degrees
90 VAC
Level, dBm
-38.03
-29.34
-26.93
-40.04
-20 degrees
264 VAC
Level, dBm
-39.32
-31.48
-27.78
-40.99
Page 22 of 29
Section 8
Test name
Specification
8.6
Testing data
EN 300 328, Clause 4.3.2.8 Transmitter unwanted emissions in the spurious domain
ETSI EN 300 328 V1.8.1 (2012)
EN 300 328 Clause 4.3.2.8 Transmitter unwanted emissions in the spurious domain
8.6.1
Definitions and limits
Transmitter unwanted emissions in the spurious domain are emissions outside the allocated band and outside the out-ofband domain, when the equipment is in Transmit mode.
Definition:
These measurements shall only be performed at normal test conditions.
The spurious emissions of the transmitter shall not exceed the values in Table 8.6-1 in the indicated bands
Clause 4.3.2.8.2 limit
Table 8.6-1: Transmitter limits
Frequency range
Limit when operating, dBm
Measurement Bandwidth
30 MHz to 47 MHz
-36 dBm
100 kHz
47 MHz to 74 MHz
-54 dBm
100 kHz
74 MHz to 87,5 MHz
-36 dBm
100 kHz
87,5 MHz to 118 MHz
-54 dBm
100 kHz
118 MHz to 174 MHz
-36 dBm
100 kHz
174 MHz to 230 MHz
-54 dBm
100 kHz
230 MHz to 470 MHz
-36 dBm
100 kHz
470 MHz to 862 MHz
-54 dBm
100 kHz
862 MHz to 1 GHz
-36 dBm
100 kHz
1 GHz to 12,75 GHz
-30 dBm
1 MHz
Notes: The above limit values apply to narrowband emissions, e.g. as caused by local oscillator leakage. The measurement bandwidth for such emissions
may be as small as necessary to achieve a reliable measurement result.
8.6.2
Test summary
Test date
Test engineer
Verdict
July 28, 2014
Kevin Rose
Pass
Report reference ID: 264561-4TRFWL
Temperature
Air pressure
Relative humidity
21 °C
1003 mbar
38 %
Page 23 of 29
Section 8
Test name
Specification
8.6.3
Testing data
EN 300 328, Clause 4.3.2.8 Transmitter unwanted emissions in the spurious domain
ETSI EN 300 328 V1.8.1 (2012)
Observations, settings and special notes
The spectrum was searched from 30 MHz to 12.75 GHz.
Cabinet radiation measurements were performed a 3 m distance.
No emission within 10 dB of the limit were detected
The pre-scans were performed with spectrum analyzer using following settings:
The emissions over the range 30 MHz to 1 000 MHz shall be identified. Spectrum analyser settings:
Resolution bandwidth:
100 kHz
Video bandwidth:
300 kHz
Detector mode:
Peak
Trace mode:
Max Hold
Sweep Points:
≥ 9 970
The emissions over the range 1 GHz to 12.75 GHz shall be identified. Spectrum analyser settings:
Resolution bandwidth:
1 MHz
Video bandwidth:
3 MHz
Detector mode:
Peak
Trace mode:
Max Hold
Sweep Points:
≥ 11 750
Sweep time: For non-continuous transmissions (duty cycle less than 100 %), the sweep time shall be sufficiently long, such that for each 1 MHz frequency
step, the measurement time is greater than two transmissions of the UUT.
Allow the trace to stabilize. Any emissions identified during the sweeps above that fall within the 6 dB range below the applicable limit or above, shall be
individually measured
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Testing data
EN 300 328, Clause 4.3.2.8 Transmitter unwanted emissions in the spurious domain
ETSI EN 300 328 V1.8.1 (2012)
Section 8
Test name
Specification
Test data
10
-25
0
-30
-10
-35
-20
-40
-30
-45
Level in dBm
Level in dBm
8.6.4
-40
-55
-60
-60
-70
-65
-90
25M
12.019950000 GHz
-37.266 dBm
4.914400000 GHz
-51.563 dBm
-50
-50
-80
E N 300 220 Tx
-70
40
50
60
80
100M
200
300
400
500
800
Frequency in Hz
Figure 8.6-1: Radiated spurious emissions example 30-1000 MHz
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1G
-75
1G
2G
3G
4G
5G
6
8
12.75G
Frequency in Hz
Figure 8.6-2: Radiated spurious emissions example 1-12.75 GHz
Page 25 of 29
Section 8
Test name
Specification
8.7
Testing data
EN 300 328, Clause 4.3.2.9 Receiver spurious emissions
ETSI EN 300 328 V1.8.1 (2012)
EN 300 328 Clause 4.3.2.9 Receiver spurious emissions
8.7.1
Definitions and limits
Transmitter unwanted emissions in the spurious domain are emissions outside the allocated band and outside the out-ofband domain, when the equipment is in Transmit mode.
These measurements shall only be performed at normal test conditions.
The spurious emissions of the transmitter shall not exceed the values in 8.7.1 in the indicated bands
Definition:
Clause 4.3.2.9.2 limit
Table 8.7-1: Spurious emission limits for receivers
Frequency range
30 MHz to 1 GHz
1 GHz to 12.75 GHz
8.7.2
Measurement bandwidth
100 kHz
1 MHz
Test summary
Test date
Test engineer
Verdict
8.7.3
Maximum power, e.r.p.
-57 dBm
--47 dBm
July 28, 2014
Kevin Rose
Pass
Temperature
Air pressure
Relative humidity
21 °C
1003 mbar
38 %
Observations, settings and special notes
The spectrum was searched from 30 MHz to 12.75 GHz.
Cabinet radiation measurements were performed a 3 m distance.
No RX radio emissions were detected within 10 dB of the limit.
The pre-scans were performed with spectrum analyzer using following settings:
The emissions over the range 30 MHz to 1 000 MHz shall be identified. Spectrum analyser settings:
Resolution bandwidth:
100 kHz
Video bandwidth:
300 kHz
Detector mode:
Peak
Trace mode:
Max Hold
Sweep Points:
≥ 9 970
The emissions over the range 1 GHz to 12.75 GHz shall be identified. Spectrum analyser settings:
Resolution bandwidth:
1 MHz
Video bandwidth:
3 MHz
Detector mode:
Peak
Trace mode:
Max Hold
Sweep Points:
≥ 11 750
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Section 8
Test name
Specification
8.7.4
Testing data
EN 300 328, Clause 4.3.2.9 Receiver spurious emissions
ETSI EN 300 328 V1.8.1 (2012)
Test data
-40
-45
E N 300 220 Rx
-50
-55
Level in dBm
-60
-65
-70
-75
-80
-85
-90
-95
-100
25M
40
50
60
80 100M
200
300
400
500
800
1G
2G
3G
4G
5G
6
8
12.75G
Frequency in Hz
Figure 8.7-1: Radiated spurious emissions example 30 MHz-12.75 GHz
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Section 8
Test name
Specification
8.8
Testing data
Clause 4.3.2.10 Receiver blocking
ETSI EN 300 328 V1.8.1 (2012)
Clause 4.3.2.10 Receiver blocking
8.8.1
Definitions and limits
Receiver blocking is a measure of the capability of the adaptivity mechanism to operate as intended (see clause 4.3.2.5) in the
presence of an unwanted signal (blocking signal) on frequencies other than those of the operating channel and the adjacent
channels.
Adaptive equipment using wide band modulations other than FHSS, shall comply with the requirements defined in clauses
4.3.2.5.1 (non-LBT based DAA) or 4.3.2.5.2 (LBT based DAA) in the presence of a blocking signal with characteristics as
provided in table below
Definition
Clause 4.3.2.10.2 limit
Table 8.8-1: Receiver blocking parameters
Equipment Type
(LBT / non- LBT)
Wanted signal mean power
Blocking signal Frequency,
Blocking signal power, dBm
Type of interfering signal
from companion device
MHz
sufficient to maintain the
LBT
2 395 or 2 488,5
link (see note 2)
−30
CW
(see note 1)
Non-LBT
−30 dBm
NOTE 1: The highest blocking frequency shall be used for testing the lowest operating channel, while the lowest blocking frequency shall be used for testing
the highest operating channel.
NOTE 2: A typical value which can be used in most cases is −50 dBm/MHz.
8.8.2
Test summary
Test date
Test engineer
Verdict
8.8.3
July 28, 2014
Kevin Rose
Pass
Temperature
Air pressure
Relative humidity
21 °C
1003 mbar
38 %
Observations, settings and special notes
None
8.8.4
Test data
Please refer to the section 8.3 of this document for the test results.
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Section 9:
Block diagrams of test set-ups
Section 9.
9.1
Block diagrams of test set-ups
Radiated emissions set-up
Radio absorbing material
Antenna
mast
Test
antenna
4m
3m
EUT
1.5 m
Test
antenna
Nonconducting
table
1m
Metal ground
plane
Turn table
Receiver
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