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EN 301 893 Test Report
Applicant : TP-Link Technologies Co., Ltd.
Address : Building 24 (floors 1,3,4,5) and 28 (floors1-4) Central Science
and Technology Park,Shennan Rd, Nanshan, Shenzhen,China
Date of Receipt : Jan.12th, 2017
Test Date : Jan. 12th, 2017~ Mar. 01st, 2017
Issued Date : Mar. 17th, 2017
Report No. : 1712057R-RF-CE-P15V01
Report Version : V1.0
Product Name : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Model No. : Archer VR600v; Archer VR400v
The test results relate only to the samples tested.
The test results shown in the test report are traceable to the national/international standard through the
calibration of the equipment and evaluated measurement uncertainty herein.
This report must not be used to claim product endorsement by CNAS, TAF or any agency of the government.
The test report shall not be reproduced without the written approval of DEKRA Testing and Certification (Suzhou)
Co., Ltd.
Report No:1712057R-RF-CE-P15V01
Page: 3 of 134
TABLE OF CONTENTS Description Page
1. General Information ................................................................................................................ 7
1.1. EUT Description ...................................................................................................................... 7
1.2. 802.11 a/n/ac Antenna List ...................................................................................................... 8
1.3. Channel List ............................................................................................................................ 9
1.4. Test Channel ......................................................................................................................... 10
1.5. The test modes of the EUT can support:............................................................................... 11
1.6. Power Setting ........................................................................................................................ 12
1.7. EUT Operational Condition ................................................................................................... 13
1.8. Mode of Operation ................................................................................................................ 14
1.9. Tested System Details ........................................................................................................... 15
1.10. Configuration of Tested System ............................................................................................ 15
1.11. EUT Exercise Software ......................................................................................................... 16
2. Technical Test ........................................................................................................................ 17
2.2. Summary of Test Result ........................................................................................................ 23
2.3. Measurement Uncertainty ..................................................................................................... 24
2.4. Test Environment .................................................................................................................. 24
3. Centre Frequencies ............................................................................................................... 25
3.1. Test Equipment ..................................................................................................................... 25
3.2. Test Setup ............................................................................................................................. 25
3.3. Limit ....................................................................................................................................... 26
3.4. Test Procedure ...................................................................................................................... 26
3.5. Test Result ............................................................................................................................ 27
4. Occupied Channel Bandwidth ............................................................................................... 29
4.1. Test Equipment ..................................................................................................................... 29
4.2. Test Setup ............................................................................................................................. 29
4.3. Limit ....................................................................................................................................... 29
4.4. Test Procedure ...................................................................................................................... 30
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4.5. Test Result ............................................................................................................................ 31
5. RF Output Power and Power Density ................................................................................... 43
5.1. Test Equipment ..................................................................................................................... 43
5.2. Test Setup ............................................................................................................................. 44
5.3. Limit ....................................................................................................................................... 44
5.4. Test Procedure ...................................................................................................................... 45
5.5. Test Result ............................................................................................................................ 46
6. Transmitter Unwanted Emissions Outside the 5GHz RLAN Bands ...................................... 70
6.1. Test Equipment ..................................................................................................................... 70
6.2. Test Setup ............................................................................................................................. 71
6.3. Limit ....................................................................................................................................... 72
6.4. Test Procedure ...................................................................................................................... 72
6.5 Test Result ............................................................................................................................ 75
7. Transmitter Unwanted Emissions Within the 5GHz RLAN Bands ......................................... 87
7.1. Test Equipment ..................................................................................................................... 87
7.2. Test Setup ............................................................................................................................. 87
7.3. Limit ....................................................................................................................................... 88
7.4. Test Procedure ...................................................................................................................... 89
7.5. Test Result ............................................................................................................................ 91
8. Receiver Spurious Emissions .............................................................................................. 103
8.1. Test Equipment ................................................................................................................... 103
8.2. Test Setup ........................................................................................................................... 104
8.3. Limit ..................................................................................................................................... 104
8.4. Test Procedure .................................................................................................................... 105
8.5. Test Result .......................................................................................................................... 107
9. Adaptivity (Channel Access Mechanism) ............................................................................ 119
9.1. Test Equipment ................................................................................................................... 119
9.2. Test Setup ........................................................................................................................... 119
9.3. Limit ..................................................................................................................................... 120
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9.4. Test Procedure .................................................................................................................... 121
9.5. Test Result .......................................................................................................................... 124
10. Attachment .......................................................................................................................... 127
10.1. Test Photograph .................................................................................................................. 127
10.2. EUT Photograph ................................................................................................................. 130
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History of This Test Report
REPORT NO. VERSION DESCRIPTION ISSUED DATE
1712057R-RF-CE-P15V01 V1.0 Initial Issued Report Mar. 17th, 2017
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1. General Information
1.1. EUT Description
Product Name 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Model No. Archer VR600v; Archer VR400v
EUT Voltage 100-240V~50/60Hz 0.6A
Test Voltage AC 230V/50Hz
Wi-Fi
Transmit modes 802.11a 802.11n(20MHz) 802.11n(40MHz)
802.11ac(20MHz) 802.11ac(40MHz) 802.11ac(80MHz)
Supporting Bands 5150MHz~5250MHz
5250MHz~5350MHz
5470MHz~5725MHz With TDWR Channels
Without TDWR Channels
Frequency Range 802.11a/n/ac (20MHz): 5180 – 5240 MHz,
802.11n/ac (40MHz): 5190 – 5230 MHz
802.11ac (80MHz): 5210MHz
Channel Number 802.11a/n/ac (20MHz): 4
802.11n/ac (40MHz): 2
802.11ac (80MHz): 1
Type of Modulation 802.11a/n/ac: OFDM-BPSK, QPSK, 16QAM, 64QAM
Data Rate 802.11a: 6/9/12/18/24/36/48/54 Mbps
802.11n: up to 450 Mbps
802.11ac: up to 1.3 Gbps
Note:
1. The difference of models is for different marketing requirement.
2. Archer VR600v has two versions, and only minor circuitry for non-transmitter portions(Rx
Filter and Hybrid Filter) changed, which has nothing effect with RF circuit.
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1.2. 802.11 a/n/ac Antenna List
Antenna manufacturer N/A
Antenna Delivery 1*TX+1*RX 2*TX+2*RX 3*TX+3*RX
Antenna technology SISO
MIMO
Basic
Sectorized antenna systems
Cross-polarized antennas
Unequal antenna gains, with equal transmit powers
Spatial Multiplexing
CDD
Beam-forming
Antenna Type External Dipole
Internal
PIFA
PCB
Ceramic Chip Antenna
Metal plate type F antenna
Cross-polarize Antenna
Antenna Gain #1 3dBi
Antenna Gain #2 3dBi
Antenna Gain #3 3dBi
Beam-forming Gain 2dBi
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1.3. Channel List
802.11a/n/ac (20MHz) Working Frequency of Each Channel:
Channel Frequency Channel Frequency Channel Frequency Channel Frequency
36 5180 MHz 40 5200 MHz 44 5220 MHz 48 5240 MHz
802.11n/ac (40MHz) Working Frequency of Each Channel:
Channel Frequency Channel Frequency Channel Frequency Channel Frequency
38 5190 MHz 46 5230 MHz N/A N/A N/A N/A
802.11ac (80MHz) Working Frequency of Each Channel:
Channel Frequency Channel Frequency Channel Frequency Channel Frequency
42 5210 MHz N/A N/A N/A N/A N/A N/A
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1.4. Test Channel
Test Clause
Test channels
Lower sub-band (5 150 ~ 5 350 MHz) Higher sub-band
(5 470 ~ 5 725 MHz)5150 ~ 5250MHz 5250 ~ 5350MHz
Centre frequencies 5.3.2 C7 (see note 1) C8 (see note 1)
Occupied Channel
Bandwidth 5.3.3 C7 C8
Power, power
density 5.3.4 C1 C2 C3,C4
Transmitter
unwanted
emissions outside
the
5 GHz RLAN
bands
5.3.5 C7 (see note 1) C8 (see note 1)
Transmitter
unwanted
emissions within
the
5 GHz RLAN
bands
5.3.6 C1 C2 C3,C4
Receiver spurious
emissions 5.3.7 C7 (see note 1) C8 (see note 1)
Transmit Power
Control
(TPC)
5.3.4 n.a. (see note 2) C2 (see note 1) C3, C4 (see note 1)
Dynamic
Frequency
Selection (DFS)
5.3.8 n.a. (see note 2) C5 C6 (see note 3)
Adaptivity 5.3.9 C7 C8
C1, C3: The lowest declared channel for every declared nominal channel bandwidth within this
band. For the power density testing, it is sufficient to only perform this test using the lowest
nominal channel bandwidth.
C2, C4: The highest declared channel for every declared nominal channel bandwidth within this
band. For the power density testing, it is sufficient to only perform this test using the lowest
nominal channel bandwidth.
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C5, C6: One channel out of the declared channels for this frequency range. If more than one
nominal Channel bandwidth has been declared for this sub-band, testing shall be
performed using the lowest and highest nominal channel bandwidth.
C7, C8: One channel out of the declared channels for this sub-band. For Occupied Channel
Bandwidth, testing shall
be repeated for every declared nominal channel bandwidth within this sub-band. For
Adaptivity, testing shall be performed using the highest nominal channel bandwidth.
NOTE 1: In case of more than one channel plan has been declared, testing of these specific
requirements need only be performed using one of the declared channel plans.
NOTE 2: Testing is not required for nominal channel bandwidths that fall completely within the
frequency range 5 150 MHz to 5 250 MHz.
NOTE 3: Where the declared channel plan includes channels whose nominal channel bandwidth
falls completely or partly within the 5 600 MHz to 5 650 MHz band, the tests for the
Channel Availability Check (and where implemented, for the Off-Channel CAC) shall be
performed on one of these channels in addition to a channel within the band 5 470 MHz to
5 600 MHz or within the band 5 650 MHz to 5 725 MHz
NOTE 4: For power and TCP items: the lowest、middle and highest frequency of channel were
selected to test, then others items will be referenced by highest power with every nominal
channel bandwidth.
1.5. The test modes of the EUT can support:
Test Mode Ant 1 Ant 2 Ant 3 Ant 1+2+3
802.11a X X X √
802.11n(20MHz) X X X √
802.11n(40MHz) X X X √
802.11ac(20MHz) X X X √
802.11ac(40MHz) X X X √
802.11ac(80MHz) X X X √
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1.6. Power Setting
Test Mode Band Test
Frequency Ant 1 Ant 2 Ant 3 Ant 1+2+3
802.11a Band 1 5180 -- -- -- 46
802.11n(20MHz) Band 1 5180 -- -- -- 46
802.11n(40MHz) Band 1 5190 -- -- -- 54
802.11ac(20MHz) Band 1 5180 -- -- -- 46
802.11ac(40MHz) Band 1 5190 -- -- -- 54
802.11ac(80MHz) Band 1 5210 -- -- -- 54
802.11a
Beam-forming Band 1 5180 -- -- -- 36
802.11n(20MHz)
Beam-forming Band 1 5180 -- -- -- 38
802.11n(40MHz)
Beam-forming Band 1 5190 -- -- -- 46
802.11ac(20MHz)
Beam-forming Band 1 5180 -- -- -- 38
802.11ac(40MHz)
Beam-forming Band 1 5190 -- -- -- 46
802.11ac(80MHz)
Beam-forming Band 1 5210 -- -- -- 46
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1.7. EUT Operational Condition
EUT Voltage 100-240V~50/60Hz 0.6A
Test Voltage AC 230V/50Hz
Extreme Temperature Tnom (25℃) Tmax (40℃) Tmin (0℃)
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1.8. Mode of Operation DEKRA Testing and Certification (Suzhou) Co., Ltd. has verified the construction and function in
typical operation. All the test modes were carried out with the EUT setting in continuously
transmitting mode with maximum duty cycle using software, except for adaptivity test which is under
streaming with different modes. See the different modes shown in this test report and defined as:
Test Mode Listed
Mode 1: Transmit by 802.1a
Mode 2: Transmit by 802.11n (20MHz)
Mode 3: Transmit by 802.11n (40MHz)
Mode 4: Transmit by 802.11ac (20MHz)
Mode 5: Transmit by 802.11ac (40MHz)
Mode 6: Transmit by 802.11ac (80MHz)
Mode 7: Transmit by 802.11a with Beam-forming
Mode 8: Transmit by 802.11n (20MHz) with Beam-forming
Mode 9: Transmit by 802.11 n (40MHz) with Beam-forming
Mode 10: Transmit by 802.11ac (20MHz) with Beam-forming
Mode 11: Transmit by 802.11ac (40MHz) with Beam-forming
Mode 12: Transmit by 802.11ac (80MHz) with Beam-forming
Mode 13: Receive by 802.11a
Mode 14: Receive by 802.11n (20MHz)
Mode 15: Receive by 802.11n (40MHz)
Mode 16: Receive by 802.11ac (20MHz)
Mode 17: Receive by 802.11ac (40MHz)
Mode 18: Receive by 802.11ac (80MHz)
Mode 19: Receive by 802.11a with Beam-forming
Mode 20: Receive by 802.11n (20MHz) with Beam-forming
Mode 21: Receive by 802.11n (40MHz) with Beam-forming
Mode 22: Receive by 802.11ac (20MHz) with Beam-forming
Mode 23: Receive by 802.11ac (40MHz) with Beam-forming
Mode 24: Receive by 802.11ac (80MHz) with Beam-forming
Mode 25: Normal Operation by 802.11ac (80MHz)
Note:
1. The extreme test condition for temperature was determined by manufacturer, see Clause 1.6.
2. The conducted items are tested by EN301893 systems.
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1.9. Tested System Details The types for all equipments, plus descriptions of all cables used in the tested system (including
inserted cards) are:
Product Manufacturer Model No. Serial No. Power Cord
1 Notebook Asus N80V 8BN0AS226971468 Non-shielded
1.10. Configuration of Tested System
Connection Diagram( Radiated set-up)
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Connection Diagram( Conducted set-up)
Connection Diagram
A Lan Cable Non-shielded >10m
B RF Cable Non-shielded <15cm
1.11. EUT Exercise Software
1 Setup the EUT and simulators as shown on above.
2 Turn on the power of equipment.
3 Run the test software [MTool].
4 Select the transmission mode and test channel, then start test.
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2. Technical Test
2.1. Test Information as required by ETSI EN 301 893 V1.8.1
a) The Nominal Channel Bandwidth(s):
Nominal Channel Bandwidth 1: ..20.... MHz
Nominal Channel Bandwidth 2: ..40.... MHz
Nominal Channel Bandwidth 3: ..80.... MHz
The associated centre frequencies:
For Nominal Channel Bandwidth 1:
for the band 5 150 MHz to 5 250 MHz: Reference clause 1.3
For Nominal Channel Bandwidth 2:
for the band 5 150 MHz to 5 250 MHz: Reference clause 1.3
For Nominal Channel Bandwidth 3:
for the band 5 150 MHz to 5 250 MHz: Reference clause 1.3
b) For equipment that support simultaneous transmissions in one or more channels:
The (maximum) number of channels used for these simultaneous transmissions: ..4....
These channels are adjacent channels: Yes No
In case of non-adjacent channels, whether or not these channels are in different sub-bands:
Yes No
In case of simultaneous transmissions, further information defining the channels used for these
simultaneous transmissions may be required.
c) The different transmit operating modes (see clause 5.1.4.2) (tick all that apply):
Operating mode 1: Single Antenna Equipment
a) Equipment with only 1 antenna
b) Equipment with diversity antennas but only 1 antenna active at any moment in time
c) Smart Antenna Systems with 2 or more antennas, but operating in a (legacy) mode where
only 1 antenna is used.
Operating mode 2: Smart Antenna Systems - Multiple Antennas without beamforming
a) Single spatial stream/Standard throughput
b) High Throughput (> 1 spatial stream) using Nominal Channel Bandwidth 1
c) High Throughput (> 1 spatial stream) using Nominal Channel Bandwidth 2
Operating mode 3: Smart Antenna Systems - Multiple Antennas with beamforming
a) Single spatial stream/Standard throughput
b) High Throughput (> 1 spatial stream) using Nominal Channel Bandwidth 1
c) High Throughput (> 1 spatial stream) using Nominal Channel Bandwidth 2
d) In case of Smart Antenna Systems or multiple antenna systems:
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The number of Receive chains: ..3....
The number of Transmit chains: ..3....
Equal power distribution among the transmit chains: Yes No
In case of beamforming, the maximum (additional) beamforming gain: ...2... dB
NOTE: Beamforming gain does not include the basic gain of a single antenna (assembly).
e) TPC feature available:
Yes No
f) For equipment with TPC range:
The lowest and highest power level (or lowest and highest e.i.r.p. level in case of integrated antenna
equipment),
intended antenna assemblies and corresponding operating frequency range for the TPC range (or
for each of the
TPC ranges if more than one is implemented).
TPC range 1: Applicable Frequency Range:
5 150 MHz to 5 350 MHz and 5 470 MHz to 5 725 MHz (Indoor) Simultaneous transmissions in
both sub-bands:
Yes No
5 470 MHz to 5 725 MHz only (Outdoor only)
Indicate whether the power levels specified are Transmitter Output Power levels or e.i.r.p. levels in
case of integrated antenna equipment.
Power levels are specified for: TX out e.i.r.p
If more than one transmit chain is present (e.g. in the case of smart antenna systems), the power
levels below represent the power settings per active transmit chain (and per sub-band in case of
simultaneous transmissions).
Table F.1: Power levels for TPC range 1(Clause 1.6)
Sub-band
(MHz)
Operating
Mode 1
(dBm)
Operating
Mode 2
(dBm)
Operating
Mode 3
(dBm)
Lowest setting 5 150 to 5 350
5 470 to 5 725
Highest setting 5 150 to 5 350
5 470 to 5 725
Beamforming possible: Yes No
Intended Antenna Assemblies:
Table F.2: Intended Antenna Assemblies for TPC range 1
Antenna
Assembly
name
Antenna
Gain
(dBi)
Operating
Mode
Sub-band
(MHz)
Beam
forming
gain
e.i.r.p. for
Plow
(dBm)
e.i.r.p. for
Phigh
(dBm)
Report No:1712057R-RF-CE-P15V01
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(dB)
<Antenna 1> Mode 1 5150-5350
5470-5725
Mode 2 5150-5350
5470-5725
Mode 3 5150-5350
5470-5725
<Antenna 1> Mode 1 5150-5350
5470-5725
Mode 2 5150-5350
5470-5725
Mode 3 5150-5350
5470-5725
<Antenna 1> Mode 1 5150-5350
5470-5725
Mode 2 5150-5350
5470-5725
Mode 3 5150-5350
5470-5725
DFS Threshold level: ...... dBm
at the antenna connector in front of the antenna
g) For equipment without a TPC range:
Power Setting 1: Applicable Frequency Range:
5 150 MHz to 5 350 MHz and 5 470 MHz to 5 725 MHz (Indoor) Simultaneous transmissions in
both sub-bands:
Yes No
5 470 MHz to 5 725 MHz only (Outdoor only)
Indicate whether the power levels specified are Transmitter Output Power levels or e.i.r.p. levels in
case of
integrated antenna equipment.
Power levels are specified for: TX out e.i.r.p
If more than one transmit chain is present (e.g. in the case of smart antenna systems), the power
levels below represent the power settings per active transmit chain (and per sub-band in case of
simultaneous transmissions).
Table F.5: Maximum Transmitter Output Power for Power Setting 1
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Sub-band
(MHz)
Operating
Mode 1
(dBm)
Operating
Mode 2
(dBm)
Operating
Mode 3
(dBm)
5 150 to 5 350
5 470 to 5 725
Beamforming possible: Yes No
Intended Antenna Assemblies:
Table F.6: Intended Antenna Assemblies for Power Setting 1(Clause 1.6)
Antenna
Assembly
name
Antenna
Gain
(dBi)
Operating
Mode
Sub-band
(MHz)
Beam
forming
gain
(dB)
e.i.r.p.
(dBm)
<Antenna 1> Mode 1 5150-5350
5470-5725
Mode 2 5150-5350
5470-5725
Mode 3 5150-5350
5470-5725
<Antenna 1> Mode 1 5150-5350
5470-5725
Mode 2 5150-5350
5470-5725
Mode 3 5150-5350
5470-5725
<Antenna 1> Mode 1 5150-5350
5470-5725
Mode 2 5150-5350
5470-5725
Mode 3 5150-5350
5470-5725
DFS Threshold level: ...... dBm
at the antenna connector in front of the antenna
h) The DFS related operating mode(s) of the equipment:
Master
Slave with radar detection
Slave without radar detection
If the equipment has more than one operating mode, tick all that apply.
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i) User access restrictions (please check box below to confirm):
the equipment is constructed to comply with the requirements contained in clause 4.10 in
ETSI EN 301 893 V1.8.1.
j) For equipment with Off-Channel CAC functionality:
The equipment has an "Off-Channel CAC" function: Yes No
If yes, specify the "Off-Channel CAC Time"
For channels outside the 5 600 MHz to 5 650 MHz range: ......... hours
If applicable, for channels (partially) within the 5 600 MHz to 5 650 MHz range: ......... hours
k) The equipment can operate in ad-hoc mode:
no ad-hoc operation
ad-hoc operation in the frequency range 5 150 MHz to 5 250 MHz without DFS
ad-hoc operation with DFS
If more than 1 is applicable, tick all that apply.
l) Operating Frequency Range(s):
Range 1: 5 150 MHz to 5 350 MHz and 5 470 MHz to 5 725 MHz
Range 2: 5 470 MHz to 5 725 MHz
Range 3: 5 150 MHz to 5 250 MHz (ad-hoc without DFS)
Range 4: other, please specify: 5 150 MHz to 5 250 MHz (AP)
m) The extreme operating temperature and supply voltage range that apply to the equipment:
-20 °C to +55 °C (Outdoor & Indoor usage)
0 °C to +35 °C (Indoor usage only)
Other: ........ 0 °C to +40 °C..........................................................................
The supply voltages of the stand-alone radio equipment or the supply voltages of the combined
(host) equipment or test jig in case of plug-in devices:
Details provided are for the:
stand-alone equipment
combined (or host) equipment
test jig
Supply Voltage
AC mains State AC voltage: Minimum: …AC 207V Nominal: . AC 230V.. Maximum: .AC 252V..
DC State DC voltage Minimum: … Nominal: ... Maximum: ...
In case of DC, indicate the type of power source:
Internal Power Supply
External Power Supply or AC/DC adapter
Battery
Nickel Cadmium
Alkaline
Nickel-Metal Hydride
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Lithium-Ion
Lead acid (Vehicle regulated)
Other ..............................
n) The test sequence/test software used (see also ETSI EN 301 893 (V1.8.1), clause 5.1.2):
..................................................................................
..................................................................................
..................................................................................
o) Type of Equipment:
Stand-alone
Combined Equipment (Equipment where the radio part is fully integrated within another type of
equipment)
Plug-in radio device (Equipment intended for a variety of host systems)
Other ..................................................................................
p) Adaptivity (Channel Access Mechanism):
Frame Based Equipment
Load Based Equipment – Option A
Load Based Equipment – Option B
Specify which protocol has been implemented: IEEE 802.11™ Other: ............
q) The CCA time implemented by the equipment: …750μs….
In case of Load Based Equipment implementing Option B (see clause 4.8.3.2) the value q: ……
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2.2. Summary of Test Result
No deviations from the test standards
Deviations from the test standards as below description:
Rule: ETSI EN 301893 V 1.8.1(2015-03)
Rule Chapter Test Item Worst data Test Result
§4.2 Carrier Frequencies Mode: Carrier Wave Pass
§4.3 Nominal Channel Bandwidth and
Occupied Channel Bandwidth
Mode 12 Pass
§4.4 RF Output Power and Power Density Mode 11 Pass
§4.5.1 Transmitter Unwanted Emissions Outside
the 5GHz RLAN Bands
Mode 8 Pass
§4.5.2 Transmitter Unwanted Emissions Within
the 5GHz RLAN Bands
Mode 5 Pass
§4.6 Receiver Spurious Emissions Mode 23 Pass
§4.7 Dynamic Frequency Selection (DFS) N/A N/A
§4.8 Adaptivity (Channel Access Mechanism) Mode 25 Pass
§4.9 User Access Restrictions N/A N/A
§4.10 Geo-location capability N/A N/A
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2.3. Measurement Uncertainty
Where relevant, the following measurement uncertainty levels have been estimated for tests
performed on the apparatus:
Parameter Uncertainty
Radio Frequency ±1 x 10-5
RF Power Conducted ±1.5dB
RF Power Radiated ±6dB
Spurious Emissions, Conducted ±3dB
Spurious Emissions, Radiated ±6dB
Humidity ±5%
Temperature ±1℃
Time ±10%
2.4. Test Environment
Items Required (IEC 68-1) Actual
Temperature (C) 0-40 25
Humidity (%RH) 25-75 50
Barometric pressure (mbar) 860-1060 950-1000
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3. Centre Frequencies
3.1. Test Equipment
Centre Frequencies /TR-8
Instrument Manufacturer Type No. Serial No. Cali. Due Date
Spectrum Analyzer Agilent N9010A MY48030494 2018.01.14
DC Power Supply IDRC CD-035-020PR 977272 2017.09.04
Programmable
Temperature & Humidity
Chamber
Gaoyu TH-1P-B WIT-05121302 2018.01.04
Temperature/Humidity
Meter Zhichen ZC1-2 TR8-TH 2017.04.10
Note: All equipments are calibrated with traceable calibrations. Each calibration is traceable to the national or
international standards.
3.2. Test Setup
For Conducted Measurement
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3.3. Limit
Centre Frequencies
The actual centre frequency for any given channel declared by the manufacturer shall be maintained
within the range fc±20ppm.
3.4. Test Procedure
Test Method
References Rule Chapter Description
ETSI EN 301 893 V1.8.1 5.3.2 Centre frequencies
Equipment operating without modulation
1, This test method requires that the UUT can be operated in an unmodulated test mode.
2, The UUT shall be connected to a suitable frequency measuring device (e.g. a frequency
counter or a spectrum analyser) and operated in an unmodulated mode.
3,The result shall be recorded.
Equipment operating with modulation
1,This method is an alternative to the above method in case the UUT cannot be operated in an
un-modulated mode.
2, The UUT shall be connected to spectrum analyser.
3, Max Hold shall be selected and the centre frequency adjusted to that of the UUT.
4, The peak value of the power envelope shall be measured and noted. The span shall be
reduced and the marker moved in a positive frequency increment until the upper, (relative to the
centre frequency), -10 dBc point is reached. This value
shall be noted as f1.
5, The marker shall then be moved in a negative frequency increment until the lower, (relative to
the centre frequency), -10 dBc point is reached. This value shall be noted as f2.
6, The centre frequency is calculated as (f1 + f2) / 2.
Radiated measurement
1,The test set up as described in annex B shall be used with a spectrum analyser of sufficient
accuracy attached to the test antenna (see clause 5.2).
2, The test procedure is as described under clause 5.3.2.2.1.
Report No:1712057R-RF-CE-P15V01
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3.5. Test Result
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Centre Frequencies
Test Site : TR-8
Test Mode : Mode 1: Transmit by 802.1a
Test Conditions Frequency
(MHz)
Measured Carrier
Frequency
(MHz)
△F
(ppm)
Limit
(ppm)
Tnom (25℃) Vnom
(AC 230V) 5180 5180.00 0.00 ±20
Tmax (40℃) Vmax
(AC 253V) 5180 5179.96 7.72 ±20
Tmax (40℃) Vmin
(AC 207V) 5180 5179.98 3.86 ±20
Tmin (0℃) Vmax
(AC 253V) 5180 5179.95 9.65 ±20
Tmin (0℃) Vmin
(AC 207V) 5180 5179.96 7.72 ±20
Note 1: The channel should be referenced by clause 1.4
Note 2: The worst data as below:
Report No:1712057R-RF-CE-P15V01
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Frequency(MHz)
Report No:1712057R-RF-CE-P15V01
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4. Occupied Channel Bandwidth
4.1. Test Equipment
Occupied Channel Bandwidth/ TR-8
Instrument Manufacturer Type No. Serial No. Cal. Due Date
Spectrum Analyzer Agilent N9010A MY48030494 2018.01.14
Temperature/Humidity Meter Zhichen ZC1-2 TR8-TH 2017.04.10
Note: All equipments are calibrated with traceable calibrations. Each calibration is traceable to the national or
international standards.
4.2. Test Setup
For Conducted Measurement
4.3. Limit
Occupied Channel Bandwidth
The Nominal Channel Bandwidth shall be at least 5 MHz at all times.
The Occupied Channel Bandwidth shall be between 80 % and 100 % of the declared Nominal
Channel Bandwidth. In case of smart antenna systems (devices with multiple transmit chains) each
of the transmit chains shall meet this requirement.
NOTE: During an established communication, a device is allowed to operate temporarily in a mode
where its Occupied Channel Bandwidth may be reduced to as low as 80 % of its Nominal Channel
Bandwidth with a minimum of 4 MHz.
Report No:1712057R-RF-CE-P15V01
Page: 30 of 134
4.4. Test Procedure
Test Method
References Rule Chapter Description
ETSI EN 301 893 V1.8.1 5.3.3 Occupied Channel Bandwidth
Step 1
Connect the UUT to the spectrum analyser and use the following settings:
1) Centre Frequency: The centre frequency of the channel under test
2) Resolution Bandwidth: 100 kHz
3) Video Bandwidth: 300 kHz
4) Frequency Span: 2 × Nominal Bandwidth (e.g. 40 MHz for a 20 MHz channel)
5) Sweep time: > 1 s; for larger Nominal Bandwidths, the sweep time may be increased until
a value where the sweep time has no impact on the RMS value of the signal
6) Detector Mode: RMS
7) Trace Mode: Max Hold
Step 2
Wait for the trace to stabilize.
Step 3
1) Make sure that the power envelope is sufficiently above the noise floor of the analyser to avoid
the noise signals left and right from the power envelope being taken into account by this
measurement.
2) Use the 99 % bandwidth function of the spectrum analyser to measure the Occupied Channel
Bandwidth of the UUT. This value shall be recorded.
3) The measurement described in step 1 to step 3 above shall be repeated in case of simultaneous
transmissions in non-adjacent channels.
Radiated measurement
The test set up as described in annex B and the applicable measurement procedures described in
annex C shall be used.
The test procedure is as described under clause 5.3.3.2.1.
Report No:1712057R-RF-CE-P15V01
Page: 31 of 134
4.5. Test Result
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 1: Transmit by 802.11a
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5180 16.452 16~20 20 82.26% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 32 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 2: Transmit by 802.11n(20MHz)
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5180 17.642 16~20 20 88.21% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 33 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 3: Transmit by 802.11n(40MHz)
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5190 36.227 32~40 40 90.56% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 34 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 4: Transmit by 802.11ac(20MHz)
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5180 17.652 16~20 20 88.26% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 35 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 5: Transmit by 802.11ac(40MHz)
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5190 36.223 32~40 40 90.56% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 36 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 6: Transmit by 802.11ac(80MHz)
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5210 75.726 64~80 80 94.65% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 42(5210MHz)
Report No:1712057R-RF-CE-P15V01
Page: 37 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 7: Transmit by 802.11a with Beam-forming
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5180 16.441 16~20 20 82.21% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 38 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 8: Transmit by 802.11n(20MHz) with Beam-forming
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5180 17.636 16~20 20 88.18% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 39 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 9: Transmit by 802.11n(40MHz) with Beam-forming
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5190 36.234 32~40 40 90.56% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 40 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 10: Transmit by 802.11ac(20MHz) with Beam-forming
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5180 17.650 16~20 20 88.25% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 41 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 11: Transmit by 802.11ac(40MHz) with Beam-forming
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5190 36.229 32~40 40 90.57% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 42 of 134
Product :
1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Occupied Channel Bandwidth
Test Site : TR-8
Test Mode : Mode 12: Transmit by 802.11ac(80MHz) with Beam-forming
Frequency
(MHz)
Occupied
Channel
Bandwidth
(MHz)
Limit
(MHz)
Declared
Nominal
Channel
Bandwidth
(MHz)
Occupied
Channel
Bandwidth
(%)
Limit
(%)
5210 75.750 64~80 80 94.69% 80 - 100
Note 1: The Test mode and channel should be referenced by clause 1.4.
Note 2: We have evaluated all antennas, shown the worst case as below.
Channel 42(5210MHz)
Report No:1712057R-RF-CE-P15V01
Page: 43 of 134
5. RF Output Power and Power Density
5.1. Test Equipment
RF Output Power, Transmit Power Control (TPC) and Power Density / TR-8
Instrument Manufacturer Type No. Serial No. Cal. Due Date
Power Meter Anritsu ML2495A 0905006 2017.10.18
Power Sensor Anritsu MA2411B 0846014 2017.10.18
DC Power Supply IDRC CD-035-020PR 977272 2017.09.04
Programmable Temperature
& Humidity Chamber Gaoyu TH-1P-B WIT-05121302 2018.01.04
Temperature/Humidity Meter Zhichen ZC1-2 TR8-TH 2017.04.10
EN 300328 Test system (V3.160113)
Instrument Manufacturer Type No. Serial No. Cali. Due Date
X-series USB Peak and
Average Power Sensor
Agilent
U2021XA MY54080020 2017.06.25
X-series USB Peak and
Average Power Sensor
Agilent
U2021XA MY54110001 2017.06.25
X-series USB Peak and
Average Power Sensor
Agilent
U2021XA MY53480008 2017.06.25
X-series USB Peak and
Average Power Sensor
Agilent
U2021XA MY54080019 2017.06.25
4 Ch.Simultaneous
Sampling 14 Bits 2 MS/s Agilent U2531A TW54063507 N/A
4 Ch.Simultaneous
Sampling 14 Bits 2 MS/s Agilent U2531A TW54063513 N/A
Note: All equipments are calibrated with traceable calibrations. Each calibration is traceable to the national or
international standards.
Report No:1712057R-RF-CE-P15V01
Page: 44 of 134
5.2. Test Setup
For Conducted Measurement
5.3. Limit
Mean EIRP limits for RF Output Power and Power Density at the Highest Power Level
Frequency Range Mean EIRP Limit [dBm] Mean EIRP Density Limit [dBm/MHz]
with TPC without TPC with TPC without TPC
5150 MHz to 5350
MHz
23 20/23 (see note 1) 10 7/10 (see note 2)
5470 MHz to 5725
MHz
30 (see note 3) 27 (see note 3) 17 (see note 3) 14 (see note 3)
NOTE 1: The applicable limit is 20 dBm, except for transmissions whose nominal bandwidth falls
completely within the band 5150 MHz to 5250 MHz, in which case the applicable limit is 23
dBm.
NOTE 2: The applicable limit is 7dBm/MHz, except for transmissions whose nominal bandwidth falls
completely within the band 5 150 MHz to 5 250 MHz, in which case the applicable limit is
10 dBm/MHz.
NOTE 3: Slave devices without a Radar Interference Detection function shall comply with the limits
for the band 5250 MHz to 5350 MHz.
Report No:1712057R-RF-CE-P15V01
Page: 45 of 134
Mean EIRP Limits for RF Output Power at the Lowest Power Level of the TPC Range
Frequency Range Mean EIRP [dBm]
5250 MHz to 5350 MHz 17
5470 MHz to 5725 MHz 24 (see note)
Note: Slave devices without a Radar Interference Detection function shall comply with the limits for
the band 5250 MHz to 5350 MHz.
5.4. Test Procedure
References Rule Chapter Description
ETSI EN 301 893 V1.8.1 5.3.4 RF output power, Transmit Power Control (TPC) and
power density
RF output power at the highest power - PH:
Option 1: For equipment with continuous transmission capability or for equipment operating
(or with the capability to operate) with a constant duty cycle (e.g. Frame Based equipment):
Option 2: For equipment without continuous transmission capability and operating (or with
the capability to operate) in only one sub-band
Option 3: For equipment without continuous transmission capability and having
simultaneous transmissions in both sub-bands
RF output power at the lowest power level of the TPC range - PL:
Option 1: For equipment with continuous transmission capability or for equipment operating
(or with the capability to operate) with a constant duty cycle (e.g. Frame Based equipment):
Option 2: For equipment without continuous transmission capability and operating (or with
the capability to operate) in only one sub-band
Option 3: For equipment without continuous transmission capability and having
simultaneous transmissions in both sub-bands
Power density:
Option 1: For equipment with continuous transmission capability or for equipment operating
(or with the capability to operate) with a constant duty cycle (e.g. Frame Based equipment):
Option 2: For equipment without continuous transmission capability and operating (or with
the capability to operate) in only one sub-band
Option 3: For equipment without continuous transmission capability and having
simultaneous transmissions in both sub-bands
Report No:1712057R-RF-CE-P15V01
Page: 46 of 134
5.5. Test Result
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 1: Transmit by 802.11a
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5180 13.96 13.42 13.35 18.36 21.36 23
Tmax (40℃) Vmax
(AC 253V)5180 13.84 13.37 13.28 18.27 21.27 23
Tmax (40℃) Vmin
(AC 207V)5180 13.89 13.42 13.31 18.32 21.32 23
Tmin (0℃) Vmax
(AC 253V)5180 14.38 13.84 13.76 18.77 21.77 23
Tmin (0℃) Vmin
(AC 207V)5180 14.44 13.87 13.83 18.83 21.83 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 47 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 2: Transmit by 802.11n(20MHz)
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5180 14.03 13.47 13.33 18.39 21.39 23
Tmax (40℃) Vmax
(AC 253V)5180 13.66 13.18 13.05 18.08 21.08 23
Tmax (40℃) Vmin
(AC 207V)5180 13.68 13.25 13.09 18.12 21.12 23
Tmin (0℃) Vmax
(AC 253V)5180 14.44 13.79 13.82 18.80 21.80 23
Tmin (0℃) Vmin
(AC 207V)5180 14.47 13.81 13.86 18.83 21.83 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 48 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 3: Transmit by 802.11n(40MHz)
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5190 14.93 14.52 14.48 19.42 22.42 23
Tmax (40℃) Vmax
(AC 253V)5190 14.73 14.28 14.21 19.18 22.18 23
Tmax (40℃) Vmin
(AC 207V)5190 14.77 14.33 14.27 19.23 22.23 23
Tmin (0℃) Vmax
(AC 253V)5190 15.36 14.85 14.91 19.82 22.82 23
Tmin (0℃) Vmin
(AC 207V)5190 15.41 14.88 14.94 19.85 22.85 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 49 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 4: Transmit by 802.11ac(20MHz)
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5180 14.07 13.58 13.44 18.48 21.48 23
Tmax (40℃) Vmax
(AC 253V)5180 13.92 13.43 13.47 18.38 21.38 23
Tmax (40℃) Vmin
(AC 207V)5180 13.97 13.48 13.51 18.43 21.43 23
Tmin (0℃) Vmax
(AC 253V)5180 14.51 13.96 13.87 18.89 21.89 23
Tmin (0℃) Vmin
(AC 207V)5180 14.55 13.98 13.92 18.93 21.93 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 50 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 5: Transmit by 802.11ac(40MHz)
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5190 15.19 14.73 14.82 19.69 22.69 23
Tmax (40℃) Vmax
(AC 253V)5190 14.97 14.49 14.44 19.41 22.41 23
Tmax (40℃) Vmin
(AC 207V)5190 15.04 14.52 14.48 19.46 22.46 23
Tmin (0℃) Vmax
(AC 253V)5190 15.24 15.04 15.06 19.89 22.89 23
Tmin (0℃) Vmin
(AC 207V)5190 15.29 15.06 15.08 19.92 22.92 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 51 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 6: Transmit by 802.11ac(80MHz)
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5210 15.08 14.85 14.93 19.73 22.73 23
Tmax (40℃) Vmax
(AC 253V)5210 15.02 14.64 14.58 19.52 22.52 23
Tmax (40℃) Vmin
(AC 207V)5210 15.08 14.67 14.61 19.56 22.56 23
Tmin (0℃) Vmax
(AC 253V)5210 15.13 15.02 15.07 19.84 22.84 23
Tmin (0℃) Vmin
(AC 207V)5210 15.17 15.06 15.12 19.89 22.89 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 52 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 7: Transmit by 802.11a with Beam-forming
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Beam-forming Gain = 2 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5180 11.53 11.01 10.92 15.93 20.93 23
Tmax (40℃) Vmax
(AC 253V)5180 11.36 10.84 10.81 15.78 20.78 23
Tmax (40℃) Vmin
(AC 207V)5180 11.41 10.87 10.85 15.82 20.82 23
Tmin (0℃) Vmax
(AC 253V)5180 11.85 11.38 11.24 16.27 21.27 23
Tmin (0℃) Vmin
(AC 207V)5180 11.88 11.42 11.29 16.31 21.31 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 53 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 8: Transmit by 802.11n(20MHz) with Beam-forming
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Beam-forming Gain = 2 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5180 12.09 11.62 11.49 16.51 21.51 23
Tmax (40℃) Vmax
(AC 253V)5180 11.63 11.24 11.07 16.09 21.09 23
Tmax (40℃) Vmin
(AC 207V)5180 11.66 11.27 11.13 16.13 21.13 23
Tmin (0℃) Vmax
(AC 253V)5180 12.42 11.83 11.87 16.82 21.82 23
Tmin (0℃) Vmin
(AC 207V)5180 12.44 11.85 11.91 16.85 21.85 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 54 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 9: Transmit by 802.11n(40MHz) with Beam-forming
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Beam-forming Gain = 2 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5190 12.97 12.56 12.52 17.46 22.46 23
Tmax (40℃) Vmax
(AC 253V)5190 12.77 12.33 12.25 17.23 22.23 23
Tmax (40℃) Vmin
(AC 207V)5190 12.79 12.38 12.27 17.26 22.26 23
Tmin (0℃) Vmax
(AC 253V)5190 13.32 12.86 12.85 17.79 22.79 23
Tmin (0℃) Vmin
(AC 207V)5190 13.36 12.87 12.89 17.81 22.81 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 55 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 10: Transmit by 802.11ac(20MHz) with Beam-forming
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Beam-forming Gain = 2 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5180 12.07 11.59 11.54 16.51 21.51 23
Tmax (40℃) Vmax
(AC 253V)5180 11.96 11.48 11.53 16.43 21.43 23
Tmax (40℃) Vmin
(AC 207V)5180 11.98 11.52 11.57 16.47 21.47 23
Tmin (0℃) Vmax
(AC 253V)5180 12.54 11.93 11.91 16.91 21.91 23
Tmin (0℃) Vmin
(AC 207V)5180 12.58 11.97 11.94 16.94 21.94 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 56 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 11: Transmit by 802.11ac(40MHz) with Beam-forming
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Beam-forming Gain = 2 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5190 13.14 12.78 12.86 17.70 22.70 23
Tmax (40℃) Vmax
(AC 253V)5190 12.94 12.56 12.41 17.41 22.41 23
Tmax (40℃) Vmin
(AC 207V)5190 12.96 12.58 12.47 17.45 22.45 23
Tmin (0℃) Vmax
(AC 253V)5190 13.28 13.07 13.01 17.89 22.89 23
Tmin (0℃) Vmin
(AC 207V)5190 13.32 13.11 13.05 17.93 22.93 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 57 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : RF Output Power
Test Site : TR-8
Test Mode : Mode 12: Transmit by 802.11ac(80MHz) with Beam-forming
Antenna #1 Gain = 3 dBi
Antenna #2 Gain = 3 dBi
Antenna #3 Gain = 3 dBi
Beam-forming Gain = 2 dBi
Test Conditions Frequency
(MHz)
Measured Power
(dBm)
Total Measured
Power
(dBm)
RF Output
Power
(dBm)
Limit
(dBm) Ant 1 Ant 2 Ant 3
Tnom (25℃) Vnom
(AC 230V)5210 13.04 12.81 12.97 17.71 22.71 23
Tmax (40℃) Vmax
(AC 253V)5210 12.98 12.68 12.62 17.53 22.53 23
Tmax (40℃) Vmin
(AC 207V)5210 13.04 12.71 12.66 17.58 22.58 23
Tmin (0℃) Vmax
(AC 253V)5210 13.15 13.04 13.12 17.87 22.87 23
Tmin (0℃) Vmin
(AC 207V)5210 13.17 13.08 13.16 17.91 22.91 23
Note 1: EIRP=Measured Power + Antenna Gain
Note 2: The Test mode and channel should be referenced by clause 1.4.
Report No:1712057R-RF-CE-P15V01
Page: 58 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 1: Transmit by 802.11a
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5180 9.84 10
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 59 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 2: Transmit by 802.11n(20MHz)
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5180 9.74 10
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 60 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 3: Transmit by 802.11n(40MHz)
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5190 7.51 10
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 61 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 4: Transmit by 802.11ac(20MHz)
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5180 9.8 10
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 62 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 5: Transmit by 802.11ac(40MHz)
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5190 7.75 10
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 63 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 6: Transmit by 802.11ac(80MHz)
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5210 5.36 10
Channel 42(5210MHz)
Report No:1712057R-RF-CE-P15V01
Page: 64 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 7: Transmit by 802.11a with Beam-forming
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5180 9.57 10
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 65 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 8: Transmit by 802.11n(20MHz) with Beam-forming
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5180 9.88 10
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 66 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 9: Transmit by 802.11n(40MHz) with Beam-forming
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5190 7.56 10
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 67 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 10: Transmit by 802.11ac(20MHz) with Beam-forming
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5180 9.88 10
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 68 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 11: Transmit by 802.11ac(40MHz) with Beam-forming
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5190 7.79 10
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 69 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Maximum Spectral Power Density
Test Site : TR-8
Test Mode : Mode 12: Transmit by 802.11ac(80MHz) with Beam-forming
Frequency
(MHz)
Total Power Density
(dBm/MHz)
Limit
(dBm/MHz)
5210 5.36 10
Channel 42(5210MHz)
Report No:1712057R-RF-CE-P15V01
Page: 70 of 134
6. Transmitter Unwanted Emissions Outside the 5GHz RLAN Bands
6.1. Test Equipment
Transmitter unwanted emissions in the spurious domain / AC-6
Instrument Manufacturer Type No. Serial No. Cal. Due Date
Spectrum Analyzer Agilent N9010A MY48030494 2018.01.14
Spectrum Analyzer Agilent E4440A MY49420184 2018.01.14
PSG Analog S.G. Agilent E8257D MY44321116 2017.03.10
Preamplifier chengyi EMC012645SE 980262 2017.06.13
Bilog Antenna Schaffner CBL6112B 2932 2017.09.24
Half Wave Tuned Dipole
Antenna COM-POWER AD-100 40137 2017.07.26
Broad-Band Horn
Antenna Schwarzbeck BBHA9120D 737 2017.03.06
Filter Banks QuieTek QTK-FB AC6-FB 2017.05.03
Temperature/Humidity
Meter zhichen ZC1-2 AC6-TH 2018.01.05
Note: All equipments are calibrated with traceable calibrations. Each calibration is traceable to the national or
international standards.
Report No:1712057R-RF-CE-P15V01
Page: 71 of 134
6.2. Test Setup
Transmitter unwanted emissions in the spurious domain / AC-6 (Below 1G)
Transmitter unwanted emissions in the spurious domain / AC-6 (Above 1G)
Report No:1712057R-RF-CE-P15V01
Page: 72 of 134
6.3. Limit
Transmitter unwanted emission limits outside the 5 GHz RLAN bands
6.4. Test Procedure
Test Method
References Rule Chapter Description
ETSI EN 301 893 V1.8.1 5.3.5 Transmitter unwanted emissions outside the 5 GHz
RLAN bands
Step 1
The sensitivity of the spectrum analyser should be such that the noise floor is at least 12 dB below
the limits given in clause 4.5.1.2, table 3.
Step 2
1,The unwanted emissions over the range 30 MHz to 1 000 MHz shall be identified.
2,Spectrum analyser settings:
1)Resolution bandwidth: 100 kHz
2)Video bandwidth: 300 kHz
3)Detector mode: Peak
4)Trace Mode: Max Hold
5)Sweep Points: ≥ 9 700
For spectrum analysers not supporting this number of sweep points, the
frequency band may be segmented. For spectrum analysers capable of
supporting twice this number of sweep points, the frequency adjustment in
clause 5.3.5.2.1.2 (step 1, last bullet) may be omitted.
Report No:1712057R-RF-CE-P15V01
Page: 73 of 134
5) Sweep time: For non-continuous transmissions (duty cycle less than 100 %), the sweep
time shall be sufficiently long, such that for each 100 kHz frequency step, the
measurement time is greater than two transmissions of the UUT.
EXAMPLE: For non-continuous transmissions, if the UUT is using a test sequence as
described in clause 5.1.2.1 with a transmitter on + off time of 2 ms, then the
sweep time has to be greater than 4 ms per 100 kHz.
3,Allow the trace to stabilize. Any emissions identified that have a margin of less than 6 dB with
respect to the limits given in clause 4.5.1.2, table 3 shall be individually measured using the
procedure in clause 5.3.5.2.1.2 and compared to the limits given in clause 4.5.1.2, table 3.
Step 3
1, The unwanted emissions over the range 1 GHz to 26 GHz shall be identified.
2, Spectrum analyser settings:
1) Resolution bandwidth: 1 MHz
2) Video bandwidth: 3 MHz
3) Detector mode: Peak
4)Trace Mode: Max Hold
5)Sweep points: ≥ 25 000
For spectrum analysers not supporting this number of sweep points, the
frequency band may be segmented. For spectrum analysers capable of
supporting twice this number of sweep points, the frequency adjustment in
clause 5.3.5.2.1.2 (step 1, last bullet) may be omitted.
6)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.
EXAMPLE: For non-continuous transmissions, if the UUT is using a test sequence as
described in clause 5.1.2.1 with a transmitter on + off time of 2 ms, then the
sweep time has to be greater than 4 ms per 1 MHz.
3, Allow the trace to stabilize. Any emissions identified that have a margin of less than 6 dB with
respect to the limits given in clause 4.5.1.2, table 3 shall be individually measured using the
procedure in clause 5.3.5.2.1.2 and compared to the limits given in clause 4.5.1.2, table 3.
Step 4
1, The level of the emissions shall be measured in the time domain, using the following spectrum
analyser settings:
1)Centre Frequency: Frequency of emission identified during the pre-scan
2)RBW: 100 kHz (< 1 GHz) / 1 MHz (> 1 GHz)
3)VBW: 300 kHz (< 1 GHz) / 3 MHz (> 1 GHz)
4)Frequency Span: 0 Hz
5)Sweep mode: Single Sweep
Report No:1712057R-RF-CE-P15V01
Page: 74 of 134
6) Sweep Time: Suitable to capture one transmission burst. Additional measurements may be
needed to identify the length of the transmission burst. In case of continuous
signals, the Sweep Time shall be set to 30 ms
7) Sweep points: Sweeptime [μs] / 1 μs with a maximum of 30 000
8) Trigger: Video (burst signals) or Manual (continuous signals)
9) Detector: RMS
10) Trace Mode: Clear/Write
2, Adjust the centre frequency (fine tune) to capture the highest level of one burst of the emission to
be measured. This fine tuning can be omitted for spectrum analysers capable of supporting twice
this number of sweep points required in step 2 and step 3 from the pre-scan procedure in clause
5.3.5.2.1.1.
Step 5
1, Adjust the trigger level to select the transmissions with the highest power level.
2, Set a window (start and stop lines) to match with the start and end of the burst and in which the
RMS power shall be measured using the Time Domain Power function. If the spurious emission to
be measured is a continuous signal, the measurement window shall be set to match the start and
stop times of the sweep.
3, Select RMS power to be measured within the selected window and note the result which is the
RMS power of this particular spurious emission. Compare this value with the applicable limit
provided by clause 4.5.1.2,
table 3.
Repeat this procedure for every emission identified during the pre-scan. The values and
corresponding frequencies shall be recorded. In case of conducted measurements on smart antenna
systems (equipment with multiple transmit chains), the measurements shall be repeated for each of
the active transmit chains. Comparison with the applicable limits shall be done using either of the
options given below:
4, Option 1: the results for each of the transmit chains for the corresponding 1 MHz segments shall
be added and compared with the limits provided by table 3 in clause 4.5.1.2.
5, Option 2: the results for each of the transmit chains shall be individually compared with the limits
provided by table 3 in clause 4.5.1.2 after these limits have been reduced by 10 × log10 (Tch)
(number of active transmit chains).
Report No:1712057R-RF-CE-P15V01
Page: 75 of 134
6.5 Test Result Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 1: Transmit by 802.11a with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
122.6 H -73.9 -36 -37.9 PK
151.1 V -74.9 -36 -38.9 PK
463.7 H -73.2 -36 -37.2 PK
296.7 V -72.1 -36 -36.1 PK
10360.0 H -48.3 -30 -18.3 PK
10360.0 V -46.5 -30 -16.5 PK
15540.0 H -48.3 -30 -18.3 PK
15540.0 V -45.5 -30 -15.5 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 76 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 2: Transmit by 802.11n(20MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
132.8 H -74.4 -36 -38.4 PK
119.5 V -71.6 -36 -35.6 PK
321.4 H -73.6 -36 -37.6 PK
250.9 V -71.1 -36 -35.1 PK
10360.0 H -45.6 -30 -15.6 PK
10360.0 V -49.4 -30 -19.4 PK
15540.0 H -49.0 -30 -19.0 PK
15540.0 V -49.3 -30 -19.3 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 77 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 3: Transmit by 802.11n(40MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 38 (5190MHz)
128.6 H -73.1 -36 -37.1 PK
160.2 V -72.8 -36 -36.8 PK
395.0 H -73.5 -36 -37.5 PK
269.0 V -74.2 -36 -38.2 PK
10380.0 H -45.3 -30 -15.3 PK
10380.0 V -48.9 -30 -18.9 PK
15570.0 H -50.0 -30 -20.0 PK
15570.0 V -46.1 -30 -16.1 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 78 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 4: Transmit by 802.11ac(20MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
152.9 H -71.6 -36 -35.6 PK
125.6 V -71.4 -36 -35.4 PK
259.8 H -70.5 -36 -34.5 PK
243.9 V -72.3 -36 -36.3 PK
10360.0 H -47.3 -30 -17.3 PK
10360.0 V -45.4 -30 -15.4 PK
15540.0 H -48.5 -30 -18.5 PK
15540.0 V -47.4 -30 -17.4 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 79 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 5: Transmit by 802.11ac(40MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 38 (5190MHz)
172.2 H -72.8 -36 -36.8 PK
160.9 V -70.1 -36 -34.1 PK
347.9 H -72.4 -36 -36.4 PK
445.4 V -72.9 -36 -36.9 PK
10380.0 H -46.8 -30 -16.8 PK
10380.0 V -47.0 -30 -17.0 PK
15570.0 H -47.5 -30 -17.5 PK
15570.0 V -45.6 -30 -15.6 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 80 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 6: Transmit by 802.11ac(80MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 42 (5210MHz)
142.5 H -72.5 -36 -36.5 PK
157.5 V -73.2 -36 -37.2 PK
288.2 H -73.1 -36 -37.1 PK
389.9 V -70.7 -36 -34.7 PK
10420.0 H -46.4 -30 -16.4 PK
10420.0 V -45.5 -30 -15.5 PK
15630.0 H -47.8 -30 -17.8 PK
15630.0 V -48.7 -30 -18.7 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 81 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 7: Transmit by 802.11a with Ant 1+2+3 with Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
154.9 H -74.3 -36 -38.3 PK
164.4 V -72.0 -36 -36.0 PK
351.3 H -72.6 -36 -36.6 PK
385.1 V -73.6 -36 -37.6 PK
10360.0 H -47.4 -30 -17.4 PK
10360.0 V -48.1 -30 -18.1 PK
15540.0 H -47.2 -30 -17.2 PK
15540.0 V -46.8 -30 -16.8 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 82 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 8: Transmit by 802.11n(20MHz) with Ant 1+2+3 with Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
140.5 H -73.1 -36 -37.1 PK
149.1 V -72.1 -36 -36.1 PK
367.6 H -73.3 -36 -37.3 PK
258.5 V -75.0 -36 -39.0 PK
10360.0 H -47.4 -30 -17.4 PK
10360.0 V -45.0 -30 -15.0 PK
15540.0 H -45.5 -30 -15.5 PK
15540.0 V -46.7 -30 -16.7 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 83 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 9: Transmit by 802.11n(40MHz) with Ant 1+2+3 with Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 38 (5190MHz)
173.3 H -70.7 -36 -34.7 PK
120.8 V -72.9 -36 -36.9 PK
349.1 H -74.1 -36 -38.1 PK
233.9 V -70.8 -36 -34.8 PK
10380.0 H -49.3 -30 -19.3 PK
10380.0 V -47.0 -30 -17.0 PK
15570.0 H -49.4 -30 -19.4 PK
15570.0 V -47.9 -30 -17.9 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 84 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 10: Transmit by 802.11ac(20MHz) with Ant 1+2+3 with
Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
160.5 H -70.8 -36 -34.8 PK
144.2 V -73.0 -36 -37.0 PK
302.2 H -70.0 -36 -34.0 PK
385.6 V -70.3 -36 -34.3 PK
10360.0 H -48.8 -30 -18.8 PK
10360.0 V -46.6 -30 -16.6 PK
15540.0 H -48.3 -30 -18.3 PK
15540.0 V -49.2 -30 -19.2 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 85 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 11: Transmit by 802.11ac(40MHz) with Ant 1+2+3 with
Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 38 (5190MHz)
150.1 H -72.4 -36 -36.4 PK
140.2 V -72.3 -36 -36.3 PK
267.9 H -73.7 -36 -37.7 PK
302.9 V -71.8 -36 -35.8 PK
10380.0 H -48.2 -30 -18.2 PK
10380.0 V -45.3 -30 -15.3 PK
15570.0 H -46.1 -30 -16.1 PK
15570.0 V -49.2 -30 -19.2 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 86 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 12: Transmit by 802.11ac(80MHz) with Ant 1+2+3 with
Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 42 (5210MHz)
155.4 H -71.3 -36 -35.3 PK
151.3 V -72.3 -36 -36.3 PK
388.2 H -72.1 -36 -36.1 PK
319.2 V -71.9 -36 -35.9 PK
10420.0 H -45.4 -30 -15.4 PK
10420.0 V -45.5 -30 -15.5 PK
15630.0 H -48.9 -30 -18.9 PK
15630.0 V -47.7 -30 -17.7 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 87 of 134
7. Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
7.1. Test Equipment
Transmitter Unwanted Emissions Within the 5GHz RLAN Bands / TR-8
Instrument Manufacturer Type No. Serial No. Cali. Due Date
Spectrum Analyzer Agilent E4446A MY45300103 2018.01.04
Temperature/Humidity
Meter Zhichen ZC1-2 TR8-TH 2017.04.10
Note: All equipments are calibrated with traceable calibrations. Each calibration is traceable to the national or
international standards.
7.2. Test Setup
For Conducted Measurement
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7.3. Limit
Transmitter unwanted emissions within the 5 GHz RLAN bands are radio frequency emissions
within the 5 GHz RLAN bands
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7.4. Test Procedure
Test Method
References Rule Chapter Description
ETSI EN 301 893 V1.8.1 5.3.6 Transmitter unwanted emissions within the 5 GHz
RLAN bands
Option 1: For equipment with continuous transmission capability
The UUT shall be configured for continuous transmit mode (duty cycle equal to 100 %). If this is not possible,
thenoption 2 shall be used.
Step 1
1, Spectrum analyser settings:2,Spectrum analyser settings:
1) Resolution bandwidth: 1 MHz
2) Video bandwidth: 30 kHz
3) Detector mode: Peak
4) Trace mode: Video Average
5) Sweep Time: Coupled
6) Centre Frequency: Centre frequency of the channel being tested
7) Span: 2 × Nominal Channel Bandwidth
2, Use the marker to find the highest average power level of the power envelope of the UUT. This
level shall be used as the reference level for the relative measurements.
Step 2
1, Adjust the frequency range of the spectrum analyser to allow the measurement to be performed
within the
sub-bands 5 150 MHz to 5 350 MHz and 5 470 MHz to 5 725 MHz. No other parameter of the
spectrum analyser should be changed.
2, Compare the relative power envelope of the UUT with the limits defined in clause 4.5.2.2.
Option 2: For equipment without continuous transmission capability
This method shall be used if the UUT is not capable of operating in a continuous transmit mode (duty
cycle less than 100 %). In addition, this option can also be used as an alternative to option 1 for
systems operating in a continuous transmit mode.
Step 1
1, Spectrum analyser settings:
1) Resolution bandwidth: 1 MHz
2) Video bandwidth: 30 kHz
3) Detector mode: RMS
4) Trace Mode: Max Hold
5) Sweep time: ≥1 minute
6) Centre Frequency: Centre frequency of the channel being tested
Report No:1712057R-RF-CE-P15V01
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7) Span: 2 × Nominal Channel Bandwidth
2,Use the marker to find the highest average power level of the power envelope of the UUT. This
level shall be used as the reference level for the relative measurements.
Step 2
1, Adjust the frequency range of the spectrum analyser to allow the measurement to be performed
within the sub-bands 5 150 MHz to 5 350 MHz and 5 470 MHz to 5 725 MHz. No other parameter of
the spectrum analyser should be changed.
2,Compare the relative power envelope of the UUT with the limits defined in clause 4.5.2.2.
1) Resolution bandwidth: 1 MHz
2) Video bandwidth: 30 kHz
3) Detector mode: RMS
4) Trace Mode: Max Hold
5) Sweep time: ≥1 minute
6) Centre Frequency: Centre frequency of the channel being tested
7) Span: 2 × Nominal Channel Bandwidth
2,Use the marker to find the highest average power level of the power envelope of the UUT. This
level shall be used as the reference level for the relative measurements.
Radiated measurement
The test set up as described in annex B shall be used with a spectrum analyser of sufficient accuracy
attached to the test antenna.
Report No:1712057R-RF-CE-P15V01
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7.5. Test Result
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmiter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 1: Transmit by 802.11a
Channel 36(5180MHz)
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Page: 92 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 2: Transmit by 802.11n(20MHz)
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 93 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmiter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 3: Transmit by 802.11n(40MHz)
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 94 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmiter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 4: Transmit by 802.11ac(20MHz)
Channel 36(5180MHz)
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Page: 95 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmiter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 5: Transmit by 802.11ac(40MHz)
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 96 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 6: Transmit by 802.11ac(80MHz)
Channel 42(5210MHz)
Report No:1712057R-RF-CE-P15V01
Page: 97 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 7: Transmit by 802.11a with Beam-forming
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 98 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 8: Transmit by 802.11n(20MHz) with Beam-forming
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 99 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 9: Transmit by 802.11n(40MHz) with Beam-forming
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 100 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 10: Transmit by 802.11ac(20MHz) with Beam-forming
Channel 36(5180MHz)
Report No:1712057R-RF-CE-P15V01
Page: 101 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 11: Transmit by 802.11ac(40MHz) with Beam-forming
Channel 38(5190MHz)
Report No:1712057R-RF-CE-P15V01
Page: 102 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter Unwanted Emissions Within the 5GHz RLAN Bands
Test Site : TR-8
Test Mode : Mode 12: Transmit by 802.11ac(80MHz) with Beam-forming
Channel 42(5210MHz)
Report No:1712057R-RF-CE-P15V01
Page: 103 of 134
8. Receiver Spurious Emissions
8.1. Test Equipment
Receiver Spurious Emissions / AC-6
Instrument Manufacturer Type No. Serial No. Cal. Due Date
Spectrum Analyzer Agilent E4440A MY49420184 2018.01.14
PSG Analog S.G. Agilent E8257D MY44321116 2018.01.14
Preamplifier Agilent 8449B 3008A02597 2017.04.11
Bilog Antenna Schaffner CBL6112B 2932 2017.09.25
Half Wave Tuned Dipole
Antenna COM-POWER AD-100 40137 2018.02.26
Broad-Band Horn
Antenna Schwarzbeck BBHA9120D 737 2017.03.06
Filter Banks QuieTek QTK-FB AC6-FB 2017.05.03
Temperature/Humidity
Meter zhicheng ZC1-2 AC6-TH 2018.01.05
Note: All equipments are calibrated with traceable calibrations. Each calibration is traceable to the national or
international standards.
Report No:1712057R-RF-CE-P15V01
Page: 104 of 134
8.2. Test Setup
Receiver Spurious Emissions / AC-6 (Below 1G)
Receiver Spurious Emissions / AC-6 (Above 1G)
8.3. Limit
Spurious radiated emission limits
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Page: 105 of 134
8.4. Test Procedure
Test Method
References Rule Chapter Description
ETSI EN 301 893V1.8.1 5.3.7 Transmitter unwanted emissions outside the 5 GHz
RLAN bands
Step 1
The sensitivity of the spectrum analyser should be such that the noise floor is at least 12 dB below
the limits given in clause 4.6.2, table 4.
Step 2
1,The emissions shall be measured over the range 30 MHz to 1 000 MHz.2,Spectrum analyser
settings:
2,Spectrum analyser settings:2)Video bandwidth: 300 kHz
3) Resolution bandwidth: 100 kHz
4) Video bandwidth: 300 kHz
5) Detector mode: Peak
6)Trace Mode: Max Hold
7) Sweep Points: ≥ 9 700
For spectrum analysers not supporting this number of sweep points, the
frequency band may be segmented. For spectrum analysers capable of
supporting twice this number of sweep points, the frequency adjustment in
clause 5.3.7.2.1.2 (step 1, last bullet) may be omitted.
8) Sweep time: Auto
3, Wait for the trace to stabilize. Any emissions identified that have a margin of less than 6 dB with
respect to the limits given in clause 4.6.2, table 4, shall be individually measured using the procedure
in clause 5.3.7.2.1.2 and compared to the limits given in clause 4.6.2, table 4.
Step 3
1, The emissions shall now be measured over the range 1 GHz to 26 GHz.
2, Spectrum analyser settings:
1) Resolution bandwidth: 1 MHz
2) Video bandwidth: 3 MHz
3) Detector mode: Peak
4) Trace mode: Max Hold
5) Sweep Points: ≥ 25 000
For spectrum analysers not supporting this high number of sweep points, the
frequency band may need to be segmented. For spectrum analysers capable
of supporting twice this number of sweep points, the frequency adjustment in
Report No:1712057R-RF-CE-P15V01
Page: 106 of 134
clause 5.3.7.2.1.2 (step 1, last bullet) may be omitted.
6)Sweep time: Auto
3,Wait for the trace to stabilize. Any emissions identified that have a margin of less than 6 dB with
respect to the limits given in clause 4.6.2, table 4, shall be individually measured using the procedure
in clause 5.3.7.2.1.2 and compared to the limits given in clause 4.6.2, table 4.
Step 4
1, The level of the emissions shall be measured using the following spectrum analyser settings:
1) Measurement Mode: Time Domain Power
2) Centre Frequency: Frequency of the emission identified during the pre-scan
3) Resolution Bandwidth: 100 kHz (emissions < 1 GHz) / 1 MHz (emissions > 1 GHz)
4) Video Bandwidth: 300 kHz (emissions < 1 GHz) / 3 MHz (emissions > 1 GHz)
5) Frequency Span: Zero Span
6) Sweep mode: Single Sweep
7) Sweep time: 30 ms
8) Sweep points: ≥ 30 000
9) Trigger: Video (for burst signals) or Manual (for continuous signals)
10) Detector: RMS
2, Adjust the centre frequency (fine tune) to capture the highest level of one burst of the emission to
be measured. This fine tuning can be omitted for spectrum analysers capable of supporting twice
this number of sweep points required in step 2 and step 3 from the pre-scan procedure in clause
5.3.7.2.1.1.
Step 5
1, Set a window where the start and stop indicators match the start and end of the burst with the
highest level and record the value of the power measured within this window.
2, If the spurious emission to be measured is a continuous transmission, the measurement window
shall be set to the start and stop times of the sweep.
Step 6
1, Set a window where the start and stop indicators match the start and end of the burst with the
highest level and record the value of the power measured within this window.
2, Sum the measured power (within the observed window) for each of the active receive chains.
Step 7
1, The value defined in step 3 shall be compared to the limits defined in clause 4.6.2, table 4.
Radiated measurement
The test set up as described in annex B shall be used with a spectrum analyser attached to the test
antenna (see clause 5.2).
Report No:1712057R-RF-CE-P15V01
Page: 107 of 134
8.5. Test Result Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 13: Receive by 802.11a with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
231.1 H -70.7 -57 -13.7 PK
248.2 V -71.5 -57 -14.5 PK
375.1 H -72.7 -57 -15.7 PK
415.3 V -70.8 -57 -13.8 PK
1886.9 H -56.2 -47 -9.2 PK
1895.5 V -57.2 -47 -10.2 PK
3925.0 H -58.9 -47 -11.9 PK
3668.3 V -58.4 -47 -11.4 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 108 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 14: Receive by 802.11n(20MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
207.4 H -70.9 -57 -13.9 PK
253.6 V -70.4 -57 -13.4 PK
378.7 H -71.5 -57 -14.5 PK
429.5 V -71.5 -57 -14.5 PK
1861.3 H -59.4 -47 -12.4 PK
1886.2 V -54.6 -47 -7.6 PK
3834.4 H -58.5 -47 -11.5 PK
3642.5 V -58.3 -47 -11.3 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 109 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 15: Receive by 802.11n(40MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 38 (5190MHz)
214.5 H -71.3 -57 -14.3 PK
238.2 V -74.3 -57 -17.3 PK
353.4 H -72.8 -57 -15.8 PK
412.8 V -74.7 -57 -17.7 PK
1852.7 H -58.7 -47 -11.7 PK
1863.2 V -59.0 -47 -12.0 PK
3851.7 H -55.2 -47 -8.2 PK
3583.1 V -57.4 -47 -10.4 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 110 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 16: Receive by 802.11ac(20MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
215.3 H -74.4 -57 -17.4 PK
243.2 V -71.3 -57 -14.3 PK
358.3 H -72.4 -57 -15.4 PK
411.7 V -74.8 -57 -17.8 PK
1825.6 H -55.6 -47 -8.6 PK
1843.7 V -57.9 -47 -10.9 PK
3812.8 H -53.7 -47 -6.7 PK
3563.4 V -59.1 -47 -12.1 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 111 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 17: Receive by 802.11ac(40MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 38 (5190MHz)
207.7 H -74.4 -57 -17.4 PK
245.2 V -74.5 -57 -17.5 PK
358.3 H -71.3 -57 -14.3 PK
376.5 V -73.0 -57 -16.0 PK
1823.7 H -55.6 -47 -8.6 PK
1849.1 V -56.9 -47 -9.9 PK
3762.5 H -53.3 -47 -6.3 PK
3518.3 V -54.7 -47 -7.7 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 112 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 18: Receive by 802.11ac(80MHz) with Ant 1+2+3
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 42 (5210MHz)
211.4 H -72.7 -57 -15.7 PK
231.5 V -73.0 -57 -16.0 PK
363.2 H -74.2 -57 -17.2 PK
391.7 V -73.1 -57 -16.1 PK
1790.2 H -58.9 -47 -11.9 PK
1813.5 V -55.3 -47 -8.3 PK
3738.4 H -57.9 -47 -10.9 PK
3472.5 V -57.5 -47 -10.5 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 113 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 19: Transmit by 802.11a with Ant 1+2+3 with Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
228.8 H -74.6 -57 -17.6 PK
245.7 V -72.9 -57 -15.9 PK
371.4 H -74.5 -57 -17.5 PK
411.2 V -73.2 -57 -16.2 PK
1868.1 H -54.5 -47 -7.5 PK
1876.6 V -53.4 -47 -6.4 PK
3885.8 H -54.9 -47 -7.9 PK
3631.7 V -53.3 -47 -6.3 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 114 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 20: Receive by 802.11n(20MHz) with Ant 1+2+3 with
Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
226.7 H -73.9 -57 -16.9 PK
243.4 V -71.3 -57 -14.3 PK
367.7 H -74.8 -57 -17.8 PK
407.1 V -74.8 -57 -17.8 PK
1849.5 H -55.5 -47 -8.5 PK
1857.9 V -59.4 -47 -12.4 PK
3847.0 H -53.3 -47 -6.3 PK
3595.4 V -57.0 -47 -10.0 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 115 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 21: Receive by 802.11n(40MHz) with Ant 1+2+3 with
Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 38 (5190MHz)
224.5 H -74.6 -57 -17.6 PK
241.0 V -72.8 -57 -15.8 PK
364.1 H -73.0 -57 -16.0 PK
403.2 V -72.8 -57 -15.8 PK
1830.9 H -54.4 -47 -7.4 PK
1839.4 V -59.3 -47 -12.3 PK
3808.5 H -53.8 -47 -6.8 PK
3559.4 V -53.1 -47 -6.1 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 116 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 22: Receive by 802.11ac(20MHz) with Ant 1+2+3 with
Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 36 (5180MHz)
222.3 H -73.5 -57 -16.5 PK
238.6 V -72.1 -57 -15.1 PK
360.5 H -73.7 -57 -16.7 PK
399.2 V -73.7 -57 -16.7 PK
1812.8 H -56.3 -47 -9.3 PK
1821.1 V -55.9 -47 -8.9 PK
3770.5 H -53.3 -47 -6.3 PK
3523.9 V -59.2 -47 -12.2 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 117 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 23: Receive by 802.11ac(40MHz) with Ant 1+2+3 with
Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 38 (5190MHz)
220.1 H -70.7 -57 -13.7 PK
236.3 V -72.5 -57 -15.5 PK
357.0 H -73.0 -57 -16.0 PK
395.3 V -70.6 -57 -13.6 PK
1794.7 H -54.2 -47 -7.2 PK
1802.8 V -55.1 -47 -8.1 PK
3732.7 H -57.3 -47 -10.3 PK
3488.9 V -57.0 -47 -10.0 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 118 of 134
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Transmitter spurious emissions
Test Site : AC-6
Test Mode : Mode 24: Receive by 802.11ac(80MHz) with Ant 1+2+3 with
Beam-forming
Frequency
(MHz)
Polarization
(H/V)
Measure Level
(dBm)
Limit
(dBm)
Over Limit
(dB) Detector
Channel 42 (5210MHz)
218.0 H -70.9 -57 -13.9 PK
234.0 V -72.2 -57 -15.2 PK
353.5 H -70.2 -57 -13.2 PK
391.3 V -73.2 -57 -16.2 PK
1776.9 H -55.7 -47 -8.7 PK
1784.8 V -57.2 -47 -10.2 PK
3695.6 H -55.1 -47 -8.1 PK
3454.0 V -58.0 -47 -11.0 PK
Note 1:The final result only applies for using RMS detector , if the pre-test result on peak is 6dB
lower than limit, then RMS measurement needn’t be performed.
Report No:1712057R-RF-CE-P15V01
Page: 119 of 134
9. Adaptivity (Channel Access Mechanism)
9.1. Test Equipment
Adaptivity / TR-8
Instrument Manufacturer Type No. Serial No Cal. Due Date
Spectrum Analyzer Agilent N9010A MY48030494 2018.01.14
10dB Coaxial Coupler Agilent 87300C MY44300299 N/A
Splitter/Combiner (Qty: 2) Mini-Circuits ZAPD-50W 4.2-6.0
GHz NN256400424 N/A
Splitter/Combiner (Qty: 2) MCLI PS3-7 4463/4464 N/A
PSG Analog Signal
Generator Agilent E8257D MY44321116 2018.01.14
ESG Vector Signal
Generator Agilent E4438C MY49070163 2018.01.14
Temperature/Humidity
Meter Zhichen ZC1-2 TR8-TH 2017.04.10
Note: All equipments are calibrated with traceable calibrations. Each calibration is traceable to the national or
international standards.
9.2. Test Setup For Conducted Measurement
Report No:1712057R-RF-CE-P15V01
Page: 120 of 134
9.3. Limit
Adaptivity Limit
Frame Based Equipment
1)Minimum Clear Channel Assessment (CCA) time = 20 us;
2)CCA observation time used by the equipment declared by the manufacturer;
3)COT = 1 ms to 10 ms;
4)Idle Period ≥ 5% of COT;
5)Detection threshold level = -73dBm/MHz + (23 – Ph)/(1MHz);
LBT based Detect and Avoid (Load Based Equipment with spectrum sharing mechanism IEEE Std.):
1)LBT Based spectrum sharing mechanism may implement IEEE Std. 802.11-2007 clauses 9 and 17, in
IEEE Std. 802.11n-2009 clauses 9, 11 and 20.
LBT based Detect and Avoid (Load Based Equipment) -Option A
1)Minimum Clear Channel Assessment (CCA) time = 20 us;
2)CCA observation time used by the equipment declared by the manufacturer;
3)COT ≤ (13 / 32) * q ms; q = [4~32]; 1.625ms~13ms;
4)N = number of clear idle slots are randomly [1~q]. Every time an Extended CCA is required and
5)the ‘N’ value stored in a counter. Extended CCA = N * CCA;
6)Detection threshold level = -73dBm/MHz + (23 – Ph)/ (1MHz);
LBT based Detect and Avoid (Load Based Equipment) -Option B
1)Minimum Clear Channel Assessment (CCA) time = 20 us;
2)CCA observation time used by the equipment declared by the manufacturer;
3)Extended CCA time = The initial value of q is 16 and shall be doubled for every new Extended
CCA check until q has reached 1024. Once q has reached a value of 1 024, the value of q may be
reset to the initial value of 16.
4)COT ≤ 10ms;
5)N = number of clear idle slots are randomly [1~q]. Every time an Extended CCA is required and
the ‘N’ value stored in a counter. Extended CCA = N * CCA;
6)Detection threshold level = -73dBm/MHz + (23 – Ph)/ (1MHz);
Short Control Signalling Transmissions:
Short Control Signalling Transmissions shall have a maximum duty cycle of 5% within an
observation period of 50ms.
Report No:1712057R-RF-CE-P15V01
Page: 121 of 134
9.4. Test Procedure
Test Method
References Rule Chapter Description
ETSI EN 301 893 V1.8.1 5.3.9 Adaptivity
The different steps below define the procedure to verify the efficiency of the adaptivity mechanism
of the equipment.
Step 1
1,The UUT shall connect to a companion device during the test. The signal generator, spectrum
analyser, UUT and the companion device are connected using a Set-up equivalent to the example
given by figure 13 although the signal generator does not generate any signals at this point in time.
The spectrum analyser is used to monitor the transmissions of the UUT in response to the
interference signal.
2,The received signal level (wanted signal from the companion device) at the UUT shall be
sufficient to maintain a reliable link for the duration of the test. A typical value for the received signal
level which can be used in most cases is -50 dBm/MHz.
3,The analyser shall be set as follows:
1) RBW: ≥ Occupied Channel Bandwidth (if the analyser does not support this setting,
the highest available setting shall be used)
2) VBW: 3 × RBW (if the analyser does not support this setting, the highest available
setting shall be used)
4)Detector Mode: RMS
5) Centre Frequency: Equal to the centre frequency of the operating channel
6) Span: 0 Hz
7) Sweep time: > Channel Occupancy Time
8) Trace Mode: Clear/Write
9) Trigger Mode: Video or External
Step 2
1, Configure the UUT for normal transmissions with a payload resulting in a minimum transmitter
activity ratio of 30 %. Where this is not possible, the UUT shall be configured to the maximum
payload possible.
2, Using the procedure defined in clause 5.3.9.2.2, it shall be verified that the UUT complies with
the maximum Channel Occupancy Time and the (minimum) Idle Period defined in clause 4.8.3.1
for Frame Based Equipment and defined in clause 4.8.3.2 for Load Based Equipment.
NOTE 1: For IEEE 802.11™ [8] and IEEE 802.11ac™ [9] equipment (see first paragraph of clause
4.8.3.2), the limits to be applied for the (minimum) Idle Period and the maximum Channel
Occupancy Time are as defined for other types of Load Based Equipment (see clause 4.8.3.2,
Option A point 2) and point 3) or Option B point 2) and point 3).
Report No:1712057R-RF-CE-P15V01
Page: 122 of 134
Step 3: Adding the interference signal
An interference signal as defined in clause B.7 is injected on the current operating channel of the
UUT. The power spectral density level (at the input of the UUT) of this interference signal shall be
equal to the applicable CCA threshold level (TL) defined in clause 4.8.3.1 or clause 4.8.3.2.
Step 4: Verification of reaction to the interference signal
1, The spectrum analyser shall be used to monitor the transmissions of the UUT on the selected
operating channel after the interference signal was injected. This may require the spectrum
analyser sweep to be triggered by the start of the interfering signal.
2,Using the procedure defined in clause 5.3.9.2.2, it shall be verified that:
i) The UUT stops transmissions on the current operating channel.
NOTE 2: The UUT is assumed to stop transmissions within a period equal to the Maximum
Channel Occupancy Time defined in clause 4.8.3.1 for Frame Based Equipment or clause 4.8.3.2
for Load Based Equipment. The UUT is allowed to have Short Control Signalling Transmissions on
the current operating channel, see ii) and iii).
NOTE 3: For equipment having simultaneous transmissions on multiple (adjacent or non-adjacent)
operating channels, the equipment is allowed to continue transmissions on other Operating
Channels.
ii) Apart from Short Control Signalling Transmissions there shall be no subsequent transmissions
while the interfering signal is present.
iii) The Short Control Signalling Transmissions shall comply with the limits defined in clause
4.8.3.3. The verification of the Short Control Signalling transmissions may require the analyser
settings to be changed (e.g. sweep time).
3,To verify that the UUT is not resuming normal transmissions as long as the interference signal is
present, the monitoring time may need to be 60 s or more, in which case a segmented
measurement may need to be performed in order to achieve the required resolution.
4, Once the test is completed and the interference signal is removed, the UUT may start
transmissions again on this channel however this is not a requirement and therefore does not
require testing.
Step 5
Step 2 to step 4 shall be repeated for each of the channels to be tested.
Generic test procedure for measuring channel/frequency usage
This is a generic test method to evaluate transmissions on the operating channel being
investigated. This test is only
performed as part of the procedure described in clause 5.3.9.2.1.
Step 1:
1, The analyser shall be set as follows:
1)Centre Frequency: equal to the centre frequency of the channel being investigated
2)Frequency Span: 0 Hz
Report No:1712057R-RF-CE-P15V01
Page: 123 of 134
3)RBW: approximately 50 % of the Occupied Channel Bandwidth (if the analyser
does not support this setting, the highest available setting shall be used)
4) VBW: ≥ RBW (if the analyser does not support this setting, the highest available
setting shall be used)
5)Detector Mode: RMS
6) Sweep time: > the Channel Occupancy Time
7) Sweep points: at least one sweep point per μs
8) Trace mode: Clear/Write
9) Trigger: Video or External
Step 2:
Save the trace data to a file for further analysis by a computing device using an appropriate
software application or program.
Step 3:
1, Identify the data points related to the channel being investigated by applying a threshold.
2, Count the number of consecutive data points identified as resulting from a single transmission on
the channel being investigated and multiply this number by the time difference between two
consecutive data points. Repeat this for all the transmissions within the measurement window.
3,For measuring idle or silent periods, count the number of consecutive data points identified as
resulting from a single transmitter off period on the channel being investigated and multiply this
number by the time difference between two consecutive data points. Repeat this for all the
transmitter off periods within the measurement window.
Radiated measurements
For a UUT with integral antenna(s) and without temporary antenna connector(s), radiated
measurements shall be used. The output power of the signal generator simulating the interference
signal shall provide a signal power at the antenna of the UUT with a level equal to CCA Threshold
Level (TL) defined in clause 4.8.3.1 or clause 4.8.3.2.
When performing radiated testing on a UUT with a directional antenna (including smart antenna
systems and systems capable of beamforming), the wanted communications link (between the
UUT and the companion device) and the interference test signals shall be aligned to the direction
corresponding to the UUT's maximum antenna gain.
The test set up as described in annex B and applicable measurement procedures as described in
annex C shall be used totest the adaptivity of the UUT. The test procedure is further as described
under clause 5.3.9.2.1.
Report No:1712057R-RF-CE-P15V01
Page: 124 of 134
9.5. Test Result
Product : 1, AC1600 WLAN Telefon DSL Router
2, AC1200 WLAN Telefon DSL Router
3, AC1600 Wireless Gigabit VoIP VDSL/ADSL Modem Router
Test Item : Adaptivity
Test Site : TR-8
Test Mode : Mode 25: Normal Operation by 802.11ac(80MHz)
Frequency
(MHz)
COT
(ms)
Idle Period
(ms)
Limit
(ms)
Short Control Signalling
Transmissions Time
Limit
(ms) Result
5210MHz 0.925 0.75 13 0 5 Pass
Channel Occupancy & Idle Period:
Report No:1712057R-RF-CE-P15V01
Page: 125 of 134
Interference Signal Calibration
Report No:1712057R-RF-CE-P15V01
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Verification of reaction to the interference signal
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10. Attachment 10.1. Test Photograph Description: Transmitter/Receiver Spurious Emissions Test Setup for Below 1GHz
Description: Transmitter/Receiver Spurious Emissions Test Setup for 1~18GHz
Report No:1712057R-RF-CE-P15V01
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Description: Transmitter/Receiver Spurious Emissions Test Setup for above 18GHz
Description: Conducted Normal Environment Setup Photograph
Report No:1712057R-RF-CE-P15V01
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Description: Conducted Extreme Environment Setup Photograph
Description: Adaptivity Setup Photograph
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10.2. EUT Photograph (1) EUT Photo
(2) EUT Photo
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(3) EUT Photo
(4) EUT Photo
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(5) EUT Photo
(6) EUT Photo
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(7) EUT Photo
(8) EUT Photo
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(9) EUT Photo
The End