DFS Test Report

Mikrotikls SIA C52-5AXD2AXD hAP ax2 TV7C52-5AXD2AXD TV7C525AXD2AXD c52 5axd2axd

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MRT Technology (Suzhou) Co., Ltd Phone: +86-512-66308358 Web: www.mrt-cert.com

Report No.: 2206RSU048-U3

Report Version:

V01

Issue Date:

2022-09-16

DFS MEASUREMENT REPORT

FCC ID:

TV7C52-5AXD2AXD

Applicant:

Mikrotikls SIA

Product:

hAP ax2

Model No.:

C52iG-5HaxD2HaxD-TC-US

Brand Name:

MikroTik

FCC Classification: Unlicensed National Information Infrastructure (NII)

FCC Rule Part(s): Part 15 Subpart E (Section 15.407)

Result:

Complies

Test Date:

2022-07-09 ~ 2022-07-20

Reviewed By: Approved By:

Vincent Yu Robin Wu

The test results relate only to the samples tested.

This equipment has been shown to be capable of compliance with the applicable technical standards as indicated in the measurement report and was tested in accordance with the measurement procedures specified in KDB 905462. Test results reported herein relate only to the item(s) tested.

The test report shall not be reproduced except in full without the written approval of MRT Technology (Suzhou) Co., Ltd.

Template Version:0.0

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Report No. 2206RSU048-U3

Version Rev. 01

Revision History
Description Initial Report

Report No.: 2206RSU048-U3

Issue Date 2022-09-16

Note Valid

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Report No.: 2206RSU048-U3

CONTENTS

Description

Page

1. General Information ................................................................................................................................5

1.1. Applicant ...................................................................................................................................... 5 1.2. Manufacturer ................................................................................................................................ 5 1.3. Testing Facility ............................................................................................................................. 5 1.4. Product Information...................................................................................................................... 6 1.5. Radio Specification under Test .................................................................................................... 6 1.6. Working Frequencies ................................................................................................................... 7 1.7. Antenna Details............................................................................................................................ 8

2. Test Configuration ...................................................................................................................................9

2.1. Test Mode..................................................................................................................................... 9 2.2. Test Channel ................................................................................................................................ 9 2.3. Applied Standards........................................................................................................................ 9 2.4. Test Environment Condition ......................................................................................................... 9

3. DFS Detection Thresholds and Radar Test Waveforms ....................................................................10

3.1. Applicability ................................................................................................................................ 10 3.2. DFS Devices Requirements........................................................................................................11 3.3. DFS Detection Threshold Values ............................................................................................... 13 3.4. Parameters of DFS Test Signals ................................................................................................ 14 3.5. Conducted Test Setup................................................................................................................ 17

4. Measuring Instrument ...........................................................................................................................18

5. Test Result..............................................................................................................................................19

5.1. 5.2. 5.2.1. 5.2.2. 5.2.3. 5.3. 5.3.1. 5.3.2. 5.3.3. 5.4. 5.4.1. 5.4.2. 5.4.3. 5.5.

Summary .................................................................................................................................... 19 Radar Waveform Calibration Measurement............................................................................... 20 Calibration Setup ....................................................................................................................... 20 Calibration Procedure ................................................................................................................ 20 Calibration & Channel Loading Result ....................................................................................... 20 NII Detection Bandwidth Measurement ..................................................................................... 21 Test Limit .................................................................................................................................... 21 Test Procedure ........................................................................................................................... 21 Test Result ................................................................................................................................. 22 Initial Channel Availability Check Time Measurement ............................................................... 23 Test Limit .................................................................................................................................... 23 Test Procedure ........................................................................................................................... 23 Test Result ................................................................................................................................. 23 Radar Burst at the Beginning of the Channel Availability Check Time Measurement ............... 24

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Report No.: 2206RSU048-U3
5.5.1. Test Limit .................................................................................................................................... 24 5.5.2. Test Procedure ........................................................................................................................... 24 5.5.3. Test Result ................................................................................................................................. 24 5.6. Radar Burst at the End of the Channel Availability Check Time Measurement ........................ 25 5.6.1. Test Limit .................................................................................................................................... 25 5.6.2. Test Procedure ........................................................................................................................... 25 5.6.3. Test Result ................................................................................................................................. 25 5.7. In-Service Monitoring for Channel Move Time, Channel Closing Transmission Time and Non-Occupancy Period Measurement ........................................................................................................ 26 5.7.1. Test Limit .................................................................................................................................... 26 5.7.2. Test Procedure ........................................................................................................................... 26 5.7.3. Test Result ................................................................................................................................. 26 5.8. Statistical Performance Check Measurement............................................................................ 27 5.8.1. Test Limit .................................................................................................................................... 27 5.8.2. Test Procedure ........................................................................................................................... 27 5.8.3. Test Result ................................................................................................................................. 27 Appendix A ­ Test Result ...............................................................................................................................28 A.1 Calibration Test Result ............................................................................................................... 28 A.2 Channel Loading Test Result ..................................................................................................... 30 A.3 NII Detection Bandwidth Test Result.......................................................................................... 31 A.4 Initial Channel Availability Check Time Test Result ................................................................... 34 A.5 Radar Burst at the Beginning of the Channel Availability Check Time Test Result ................... 35 A.6 Radar Burst at the End of the Channel Availability Check Time Test Result ............................. 36 A.7 In-Service Monitoring for Channel Move Time, Channel Closing Transmission Time and Non-Occupancy Period Test Result ........................................................................................................ 37 A.8 Statistical Performance Check................................................................................................... 38 Appendix B ­ Test Setup Photograph ........................................................................................................134 Appendix C ­ EUT Photograph ...................................................................................................................135
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1. General Information
1.1. Applicant Mikrotikls SIA Brivibas gatve 214i, Riga, LV-1039 LATVIA

Report No.: 2206RSU048-U3

1.2. Manufacturer Mikrotikls SIA Brivibas gatve 214i, Riga, LV-1039 LATVIA

1.3. Testing Facility

Test Site ­ MRT Suzhou Laboratory

Laboratory Location (Suzhou - Wuzhong)

D8 Building, No.2 Tian'edang Rd., Wuzhong Economic Development Zone, Suzhou, China

Laboratory Location (Suzhou - SIP)

4b Building, Liando U Valley, No.200 Xingpu Rd., Shengpu Town, Suzhou Industrial Park, China

Laboratory Accreditations

A2LA: 3628.01

CNAS: L10551

FCC: CN1166

ISED: CN0001

VCCI:

R-20025 R-20141

G-20034 G-20134

C-20020 C-20103

T-20020 T-20104

Test Site ­ MRT Shenzhen Laboratory

Laboratory Location (Shenzhen)

1G, Building A, Junxiangda Building, Zhongshanyuan Road West, Nanshan District, Shenzhen, China

Laboratory Accreditations

A2LA: 3628.02

CNAS: L10551

FCC: CN1284

ISED: CN0105

Test Site ­ MRT Taiwan Laboratory

Laboratory Location (Taiwan)

No. 38, Fuxing 2nd Rd., Guishan Dist., Taoyuan City 333, Taiwan (R.O.C.)

Laboratory Accreditations

TAF: L3261-190725 FCC: 291082, TW3261

ISED: TW3261

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Report No.: 2206RSU048-U3

1.4. Product Information

Product Name

hAP ax2

Model No.

C52iG-5HaxD2HaxD-TC-US

EUT Identification No. 20220622Sample#05

Wi-Fi Specification

802.11a/b/g/n/ac/ax, VHT

Hardware Version

r3

Software Version

RouterOS v7

Antenna Information

Refer to section 1.7

Working Voltage Range 12~28VDC (24VDC Nominal)

Working Temperature

0 ~ 50°C

Accessory

Adapter

Model: SAW30-240-1200U A

Input: 100-240V ~ 50//60Hz 0.8A

Output: 24.0V  1200mA

Remark: The information of EUT was provided by the manufacturer, and the accuracy of the information shall

be the responsibility of the manufacturer.

1.5. Radio Specification under Test

Frequency Range
Type of Modulation Data Rate
Power-on cycle Uniform Spreading (For DFS Frequency Band)

For 802.11a/n-HT20/ac-VHT20/ax-HE20: 5260~5320MHz, 5500~5720MHz For 802.11n-HT40/ac-VHT40/ax-HE40: 5270~5310MHz, 5510~5710MHz For 802.11ac-VHT80/ax-HE80: 5290MHz, 5530MHz, 5610 MHz, 5690MHz 802.11a/n/ac: OFDM 802.11ax: OFDMA 802.11a: 6/9/12/18/24/36/48/54Mbps 802.11n: up to 300Mbps 802.11ac: up to 866.6Mbps 802.11ax: up to 1201Mbps Requires 38.78 seconds to complete its power-on cycle For the 5250-5350MHz, 5470-5725 MHz bands, the Master device provides, on aggregate, uniform loading of the spectrum across all devices by selecting an operating channel among the available channels using a random algorithm.

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1.6. Working Frequencies

802.11a/n-HT20/ac-VHT20/ax-HE20

Channel

Frequency

52

5260 MHz

64

5320 MHz

108

5540 MHz

120

5600 MHz

132

5660 MHz

144

5720 MHz

Channel 56 100 112 124 136 --

802.11n-HT40/ac-VHT40/ax-HE40

Channel

Frequency

54

5270 MHz

110

5550 MHz

134

5670 MHz

Channel 62 118 142

802.11ac-VHT80/ax-HE80

Channel

Frequency

58

5290 MHz

138

5690 MHz

Channel 106 --

Frequency 5280 MHz 5500 MHz 5560 MHz 5620 MHz 5680 MHz
--
Frequency 5310 MHz 5590 MHz 5710 MHz
Frequency 5530 MHz
--

Report No.: 2206RSU048-U3

Channel 60 104 116 128 140 --

Frequency 5300 MHz 5520 MHz 5580 MHz 5640 MHz 5700 MHz
--

Channel 102 126 --

Frequency 5510 MHz 5630 MHz
--

Channel 122 --

Frequency 5610 MHz
--

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Report No.: 2206RSU048-U3

1.7. Antenna Details

Antenna Frequency Band

Type

(MHz)

Wi-Fi Antenna (2*2 MIMO)

Number of spatial streams

Max Peak Gain (dBi)

CDD Directional Gain (dBi)

For Power

For PSD

2.400 ~ 2483.5

1

5.50

5.50

8.51

5150 ~ 5250

PCB

5250 ~ 5350

Antenna

1

5470 ~ 5725

3.20

3.20

6.21

4.20

4.20

7.21

5.20

5.20

8.21

5725 ~ 5850

5.00

5.00

8.01

Note: The EUT supports Cyclic Delay Diversity (CDD) mode, and CDD signals are correlated.

For CDD transmissions, directional gain is calculated as follows, NANT = 2, NSS = 1.

If all antennas have the same gain, GANT, Directional gain = GANT + Array Gain, where Array Gain is as follows. · For power spectral density (PSD) measurements on all devices,

Array Gain = 10 log (NANT/ NSS) dB = 3.01; · For power measurements on IEEE 802.11 devices,

Array Gain = 0 dB for NANT  4;

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2. Test Configuration
2.1. Test Mode Mode 1: Operating under AP mode

Report No.: 2206RSU048-U3

2.2. Test Channel
Test Mode 802.11ax-HE20 802.11ax-HE40 802.11ax-HE80

Test Channel 100 102 106

Test Frequency 5500 MHz 5510 MHz 5530 MHz

2.3. Applied Standards
According to the specifications of the manufacturer, the EUT must comply with the requirements of the following standards:  FCC Part 15.407 Section (h)(2)  KDB 905462 D02v02  KDB 905462 D04v01

2.4. Test Environment Condition Ambient Temperature Relative Humidity

15 ~ 35°C 20 ~ 75%RH

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Report No.: 2206RSU048-U3

3. DFS Detection Thresholds and Radar Test Waveforms

3.1. Applicability

The following table from FCC KDB 905462 D02 NII DFS Compliance Procedures New Rules v02 lists the

applicable requirements for the DFS testing.

Requirement

Operational Mode

Master

Client Without

Client With Radar

Radar Detection

Detection

Non-Occupancy Period

Yes

Not required

Yes

DFS Detection Threshold

Yes

Not required

Yes

Channel Availability Check Time

Yes

Not required

Not required

U-NII Detection Bandwidth

Yes

Not required

Yes

Table 3-1: Applicability of DFS Requirements Prior to Use of a Channel

Requirement
DFS Detection Threshold Channel Closing Transmission Time Channel Move Time U-NII Detection Bandwidth

Operational Mode

Master Device or Client With

Client Without Radar

Radar Detection

Detection

Yes

Not required

Yes

Yes

Yes

Yes

Yes

Not required

Additional requirements for devices with Master Device or Client with

multiple bandwidth modes

Radar Detection

Client Without Radar Detection

U-NII Detection Bandwidth and Statistical Performance Check

All BW modes must be tested

Not required

Channel Move Time and Channel Closing Transmission Time

Test using widest BW mode available

Test using the widest BW mode available for the link

All other tests

Any single BW mode

Not required

Note: Frequencies selected for statistical performance check should include several frequencies within the radar detection bandwidth and frequencies near the edge of the radar detection bandwidth. For 802.11 devices it is suggested to select frequencies in each of the bonded 20 MHz channels and the channel center frequency.
Table 3-2: Applicability of DFS Requirements during normal operation

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Report No.: 2206RSU048-U3
3.2. DFS Devices Requirements Per FCC KDB 905462 D02 NII DFS Compliance Procedures New Rules v02 the following are the requirements for Master Devices: (a) The Master Device will use DFS in order to detect Radar Waveforms with received signal strength above
the DFS Detection Threshold in the 5250 ~ 5350 MHz and 5470 ~ 5725 MHz bands. DFS is not required in the 5150 ~ 5250 MHz or 5725 ~ 5825 MHz bands. (b) Before initiating a network on a Channel, the Master Device will perform a Channel Availability Check for a specified time duration (Channel Availability Check Time) to ensure that there is no radar system operating on the Channel, using DFS described under subsection a) above. (c) The Master Device initiates a U-NII network by transmitting control signals that will enable other U-NII devices to Associate with the Master Device. (d) During normal operation, the Master Device will monitor the Channel (In-Service Monitoring) to ensure that there is no radar system operating on the Channel, using DFS described under a). (e) If the Master Device has detected a Radar Waveform during In-Service Monitoring as described under d), the Operating Channel of the U-NII network is no longer an Available Channel. The Master Device will instruct all associated Client Device(s) to stop transmitting on this Channel within the Channel Move Time. The transmissions during the Channel Move Time will be limited to the Channel Closing Transmission Time. (f) Once the Master Device has detected a Radar Waveform it will not utilize the Channel for the duration of the Non-Occupancy Period. (g) If the Master Device delegates the In-Service Monitoring to a Client Device, then the combination will be tested to the requirements described under d) through f) above.
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Report No.: 2206RSU048-U3

Channel Move Time and Channel Closing Transmission Time requirements are listed in the following

table.

Parameter

Value

Non-occupancy period

Minimum 30 minutes

Channel Availability Check Time

60 seconds

Channel Move Time

10 seconds See Note 1.

Channel Closing Transmission Time

200 milliseconds + an aggregate of 60 milliseconds over remaining 10 second period. See Notes 1 and 2.

U-NII Detection Bandwidth

Minimum 100% of the U-NII 99% transmission power bandwidth. See Note 3.

Note 1: Channel Move Time and the Channel Closing Transmission Time should be performed with Radar Type 0. The measurement timing begins at the end of the Radar Type 0 burst. Note 2: The Channel Closing Transmission Time is comprised of 200 milliseconds starting at the beginning of the Channel Move Time plus any additional intermittent control signals required to facilitate a Channel move (an aggregate of 60 milliseconds) during the remainder of the 10 second period. The aggregate duration of

control signals will not count quiet periods in between transmissions. Note 3: During the U-NII Detection Bandwidth detection test, radar type 0 should be used. For each frequency step the minimum percentage of detection is 90 percent. Measurements are performed with no data traffic.

Table 3-3: DFS Response Requirements

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3.3. DFS Detection Threshold Values

The DFS detection thresholds are defined for Master devices and Client Devices with In-service monitoring.

These detection thresholds are listed in the following table.

Maximum Transmit Power

Value (See Notes 1, 2, and 3)

EIRP  200 milliwatt

-64 dBm

EIRP < 200 milliwatt and

-62 dBm

power spectral density < 10 dBm/MHz

EIRP < 200 milliwatt that do not meet the power spectral density requirement

-64 dBm

Note 1: This is the level at the input of the receiver assuming a 0 dBi receive antenna. Note 2: Throughout these test procedures an additional 1 dB has been added to the amplitude of the test transmission waveforms to account for variations in measurement equipment. This will ensure that the test signal is at or above the detection threshold level to trigger a DFS response.

Note3: EIRP is based on the highest antenna gain. For MIMO devices refer to KDB Publication 662911 D01.

Table 3-4: Detection Thresholds for Master Devices and Client Devices with Radar Detection

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Report No.: 2206RSU048-U3

3.4. Parameters of DFS Test Signals

This section provides the parameters for required test waveforms, minimum percentage of successful

detections, and the minimum number of trials that must be used for determining DFS conformance. Step

intervals of 0.1 microsecond for Pulse Width, 1 microsecond for PRI, 1 MHz for chirp width and 1 for the

number of pulses will be utilized for the random determination of specific test waveforms.

Short Pulse Radar Test Waveforms

Radar Type

Pulse Width (sec)

PRI (sec)

Number of Pulses

Minimum Percentage of
Successful Detection

Minimum Number of
Trials

0

1

1428

18

See Note 1

See Note 1

1

1

Test A: 15 unique PRI

60%

30

values randomly selected from the list of 23 PRI values in Table 3-6

Roundup

  

1 360

 



19 106

PRIu sec

 


     

Test B: 15 unique PRI

values randomly

selected within the

range of 518-3066

sec, with a minimum

increment of 1 sec,

excluding PRI values

selected in Test A

2

1-5

150-230

23-29

60%

30

3

6-10 200-500

16-18

60%

30

4

11-20 200-500

12-16

60%

30

Aggregate (Radar Types 1-4)

80%

120

Note: Short Pulse Radar Type 0 should be used for the detection bandwidth test, channel move time, and channel closing time tests.

Table 3-5: Parameters for Short Pulse Radar Waveforms

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Report No.: 2206RSU048-U3

A minimum of 30 unique waveforms are required for each of the Short Pulse Radar Types 2 through 4. If more

than 30 waveforms are used for Short Pulse Radar Types 2 through 4, then each additional waveform must

also be unique and not repeated from the previous waveforms.

Pulse Repetition Frequency

Pulse Repetition Frequency

Pulse Repetition Interval

Number

(Pulses Per Second)

(Microseconds)

1

1930.5

518

2

1858.7

538

3

1792.1

558

4

1730.1

578

5

1672.2

598

6

1618.1

618

7

1567.4

638

8

1519.8

658

9

1474.9

678

10

1432.7

698

11

1392.8

718

12

1355

738

13

1319.3

758

14

1285.3

778

15

1253.1

798

16

1222.5

818

17

1193.3

838

18

1165.6

858

19

1139

878

20

1113.6

898

21

1089.3

918

22

1066.1

938

23

326.2

3066

Table 3-6: Pulse Repetition Intervals Values for Test A

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Report No.: 2206RSU048-U3

Long Pulse Radar Test Waveform

Radar Type

Pulse Width (sec)

Chirp Width (MHz)

5

50 - 100

5 - 20

PRI (sec)

Number of Number of Pulses per Bursts
Burst

1000 2000

1 - 3

8 - 20

Minimum Percentage of
Successful Detection
80%

Minimum Number of
Trials
30

Table 3-7: Parameters for Long Pulse Radar Waveforms The parameters for this waveform are randomly chosen. Thirty unique waveforms are required for the Long Pulse Radar Type waveforms. If more than 30 waveforms are used for the Long Pulse Radar Type waveforms, then each additional waveform must also be unique and not repeated from the previous

waveforms.

Frequency Hopping Radar Test Waveform

Radar Type

Pulse Width

PRI (sec)

Pulses Hopping Per Hop Rate (kHz)

(sec)

Hopping Sequence
Length (msec)

6

1

333

9

0.333

300

Minimum Percentage of
Successful Detection
70%

Minimum Number of
Trials
30

Table 3-8: Parameters for Frequency Hopping Radar Waveforms For the Frequency Hopping Radar Type, the same Burst parameters are used for each waveform. The hopping sequence is different for each waveform and a 100-length segment is selected from the hopping sequence defined by the following algorithm: The first frequency in a hopping sequence is selected randomly from the group of 475 integer frequencies from 5250 ­ 5724MHz. Next, the frequency that was just chosen is removed from the group and a frequency is randomly selected from the remaining 474 frequencies in the group. This process continues until all 475 frequencies are chosen for the set. For selection of a random frequency, the frequencies remaining within the

group are always treated as equally likely.

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Report No.: 2206RSU048-U3 3.5. Conducted Test Setup The FCC KDB 905462 D02 NII DFS Compliance Procedures New Rules v02 describes a radiated test setup and a conducted test setup. The conducted test setup was used for this testing. Figure 3-1 shows the typical test setup.
Figure 3-1: Conducted Test Setup where UUT is a Master and Radar Test Waveforms are injected into the Masters
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Report No.: 2206RSU048-U3

4. Measuring Instrument

Instrument Thermohygrometer Shielding Room Signal Generator Signal Analyzer Attenuator Attenuator Attenuator Power Divider Power Divider Power Divider Power Divider

Manufacturer testo HUAMING Keysight Keysight MVE MVE MVE MVE Weinschel MVE MVE

Model No. 608-H1 WZ-SR4 N5182B N9010B MVE2213 MVE2213 MVE2213 MVE8577 6179 MVE8247 MVE8576

Asset No. MRTSUE06222 MRTSUE06441 MRTSUE06451 MRTSUE07027 MRTSUE11091 MRTSUE11095 MRTSUE11074 MRTSUE06268 MRTSUE06569 MRTSUE06324 MRTSUE06943

Cali. Interval 1 year N/A 1 year 1 year 1 year 1 year 1 year 1 year 1 year 1 year 1 year

Cali. Due Date Test Site

2022-10-10 WZ-SR4

N/A

WZ-SR4

2023-07-08 WZ-SR4

2022-12-05 WZ-SR4

2023-06-09 WZ-SR4

2023-06-09 WZ-SR4

2023-06-09 WZ-SR4

2022-10-28 WZ-SR4

2022-10-28 WZ-SR4

2022-10-28 WZ-SR4

2023-05-17 WZ-SR4

Client Information Instrument Wi-Fi Module

Manufacturer Intel

Type No. AX200NGW

Certification Number FCC ID: PD9AX200NG

Software DFS Tool Pulse Sequencer Signal Studio

Version V 6.9.2 V 2.0 V2.2.0.0

Manufacturer Agilent R&S Keysight

Function DFS Test Software DFS Test Software DFS Test Software

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5. Test Result

5.1. Summary

Parameter

Verdict

NII Detection Bandwidth Measurement

Pass

Initial Channel Availability Check Time

Pass

Radar Burst at the Beginning of the Channel Availability Check Time

Pass

Radar Burst at the End of the Channel Availability Check Time

Pass

In-Service Monitoring for Channel Move Time, Channel Pass
Closing Transmission Time

Non-Occupancy Period

Pass

Statistical Performance Check

Pass

Report No.: 2206RSU048-U3
Reference Section 5.3 Section 5.4 Section 5.5 Section 5.6 Section 5.7 Section 5.7 Section 5.8

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Report No.: 2206RSU048-U3 5.2. Radar Waveform Calibration Measurement 5.2.1. Calibration Setup The conducted test setup was used for this calibration testing. Figure 3-2 shows the typical test setup.
Figure 3-2: Conducted Test Setup 5.2.2. Calibration Procedure The Interference Radar Detection Threshold Level is (-64dBm) + (0) [dBi] + 1 dB= -63 dBm that had been taken into account the output power range and antenna gain. The above equipment setup was used to calibrate the conducted Radar Waveform. A vector signal generator was utilized to establish the test signal level for each radar type. During this process there were replace 50ohm terminal form Master and Client device and no transmissions by either the Master or Client Device. The spectrum analyzer was switched to the zero span (Time Domain) at the frequency of the Radar Waveform generator. Peak detection was used. The spectrum analyzer resolution bandwidth (RBW) and video bandwidth (VBW) were set to at least 3MHz. The vector signal generator amplitude was set so that the power level measured at the spectrum analyzer was (-64dBm) + (0) [dBi] + 1 dB= -63dBm. Capture the spectrum analyzer plots on short pulse radar types, long pulse radar type and hopping radar waveform. 5.2.3. Calibration & Channel Loading Result Refer to Appendix A.1.
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Report No.: 2206RSU048-U3
5.3. NII Detection Bandwidth Measurement 5.3.1. Test Limit Minimum 100% of the NII 99% transmission power bandwidth. During the U-NII Detection Bandwidth detection test, each frequency step the minimum percentage of detection is 90 percent. Measurements are performed with no data traffic. 5.3.2. Test Procedure 1. Adjust the equipment to produce a single Burst of any one of the Short Pulse Radar Types 0-4 in Table
3-5 at the center frequency of the EUT Operating Channel at the specified DFS Detection Threshold level. 2. The generating equipment is configured as shown in the Conducted Test Setup above section 3.5. 3. The EUT is set up as a stand-alone device (no associated Client or Master, as appropriate) and no traffic. Frame based systems will be set to a talk/listen ratio reflecting the worst case (maximum) that is user configurable during this test. 4. Generate a single radar Burst, and note the response of the EUT. Repeat for a minimum of 10 trials. The EUT must detect the Radar Waveform using the specified U-NII Detection Bandwidth criterion shown in Table 3-5. In cases where the channel bandwidth may exceed past the DFS band edge on specific channels (i.e., 802.11ac or wideband frame based systems) select a channel that has the entire emission bandwidth within the DFS band. If this is not possible, test the detection BW to the DFS band edge. 5. Starting at the center frequency of the UUT operating Channel, increase the radar frequency in 5 MHz steps, repeating the above test sequence, until the detection rate falls below the U-NII Detection Bandwidth criterion specified in Table 3-3. Repeat this measurement in 1MHz steps at frequencies 5 MHz below where the detection rate begins to fall. Record the highest frequency (denote as FH) at which detection is greater than or equal to the U-NII Detection Bandwidth criterion. Recording the detection rate at frequencies above FH is not required to demonstrate compliance. 6. Starting at the center frequency of the EUT operating Channel, decrease the radar frequency in 1 MHz steps, repeating the above item 4 test sequence, until the detection rate falls below the U-NII Detection Bandwidth criterion. Record the lowest frequency (denote as FL) at which detection is greater than or equal to the U-NII Detection Bandwidth criterion. Recording the detection rate at frequencies below FL is not required to demonstrate compliance. 7. The U-NII Detection Bandwidth is calculated as follows: U-NII Detection Bandwidth = FH ­ FL 8. The U-NII Detection Bandwidth must be at least 100% of the EUT transmitter 99% power, otherwise, the
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EUT does not comply with DFS requirements. 5.3.3. Test Result Refer to Appendix A.2.

Report No.: 2206RSU048-U3

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Report No.: 2206RSU048-U3 5.4. Initial Channel Availability Check Time Measurement 5.4.1. Test Limit The EUT shall perform a Channel Availability Check to ensure that there is no radar operating on the channel. After power-up sequence, receive at least 1 minute on the intended operating frequency. 5.4.2. Test Procedure 1. The U-NII devices will be powered on and be instructed to operate on the appropriate U-NII Channel that must incorporate DFS functions. At the same time the EUT is powered on, the spectrum analyzer will be set to zero span mode with a 3 MHz RBW and 3 MHz VBW on the Channel occupied by the radar (Chr) with a 2.5 minute sweep time. The spectrum analyzer's sweep will be started at the same time power is applied to the U-NII device. 2. The EUT should not transmit any beacon or data transmissions until at least 1 minute after the completion of the power-on cycle. 3. Confirm that the EUT initiates transmission on the channel. Measurement system showing its nominal noise floor is marker1. 5.4.3. Test Result Refer to Appendix A.3.
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Report No.: 2206RSU048-U3 5.5. Radar Burst at the Beginning of the Channel Availability Check Time Measurement 5.5.1. Test Limit In beginning of the Channel Availability Check (CAC) Time, radar is detected on this channel, select another intended channel and perform a CAC on that channel. 5.5.2. Test Procedure 1. The steps below define the procedure to verify successful radar detection on the selected Channel during
a period equal to the Channel Availability Check Time and avoidance of operation on that Channel when a radar Burst with a level equal to the DFS Detection Threshold + 1 dB occurs at the beginning of the Channel Availability Check Time. 2. The EUT is in completion power-up cycle (from T0 to T1). T1 denotes the instant when the EUT has completed its power-up sequence. The Channel Availability Check Time commences at instant T1 and will end no sooner than T1 + 60 seconds. A single Burst of one of Short Pulse Radar Types 0-4 at DFS Detection Threshold + 1 dB will commence within a 6 second window starting at T1. 3. Visual indication on the EUT of successful detection of the radar Burst will be recorded and reported. Observation of emissions will continue for 2.5 minutes after the radar Burst has been generated. Verify that during the 2.5 minutes measurement window no EUT transmissions occurred. 5.5.3. Test Result Refer to Appendix A.4.
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Report No.: 2206RSU048-U3 5.6. Radar Burst at the End of the Channel Availability Check Time Measurement 5.6.1. Test Limit In the end of Channel Availability Check (CAC) Time, radar is detected on this channel, select another intended channel and perform a CAC on that channel. 5.6.2. Test Procedure 1. The steps below define the procedure to verify successful radar detection on the selected Channel during
a period equal to the Channel Availability Check Time and avoidance of operation on that Channel when a radar Burst with a level equal to the DFS Detection Threshold + 1 dB occurs at the beginning of the Channel Availability Check Time. 2. The EUT is powered on at T0. T1 denotes the instant when the EUT has completed its power-up sequence. The Channel Availability Check Time commences at instant T1 and will end no sooner thanT1 + 60 seconds. A single Burst of one of Short Pulse Radar Types 0-4 at DFS Detection Threshold + 1 dB will commence within a 6 second window starting at T1+ 54 seconds. 3. Visual indication on the EUT of successful detection of the radar Burst will be recorded and reported. Observation of emissions will continue for 2.5 minutes after the radar Burst has been generated. Verify that during the 2.5 minutes measurement window no EUT transmissions occurred. 5.6.3. Test Result Refer to Appendix A.5.
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Report No.: 2206RSU048-U3

5.7. In-Service Monitoring for Channel Move Time, Channel Closing Transmission Time and Non-Occupancy Period Measurement
5.7.1. Test Limit

The EUT has In-Service Monitoring function to continuously monitor the radar signals. If the radar is detected, must leave the channel (Shutdown). The Channel Move Time to cease all transmissions on the current channel upon detection of a Radar Waveform above the DFS Detection Threshold within 10 sec. The total duration of Channel Closing Transmission Time is 260ms, consisting of data signals and the aggregate of control signals, by a U-NII device during the Channel Move Time. The Non-Occupancy Period time is 30 minute during which a Channel will not be utilized after a Radar Waveform is detected on that Channel.

5.7.2. Test Procedure

1. The test should be performed with Radar Type 0. The measurement timing begins at the end of the Radar Type 0.
2. When the radar burst with a level equal to the DFS Detection Threshold + 1dB is generated on the Operating Channel of the U-NII device. A U-NII device operating as a Master Device will associate with the Client Device at Channel. Stream the MPEG test file from the Master Device to the Client Device on the selected Channel for the entire period of the test. At time T0 the Radar Waveform generator sends a Burst of pulses for each of the radar types at Detection Threshold + 1dB.
3. Observe the transmissions of the EUT at the end of the radar Burst on the Operating Channel. Measure and record the transmissions from the EUT during the observation time (Channel Move Time).
4. Measurement of the aggregate duration of the Channel Closing Transmission Time method. With the spectrum analyzer set to zero span tuned to the center frequency of the EUT operating channel at the radar simulated frequency, peak detection, and max hold, the dwell time per bin is given by: Dwell (1.5ms) = S (12 sec) / B (8000); where Dwell is the dwell time per spectrum analyzer sampling bin, S is the sweep time and B is the number of spectrum analyzer sampling bins. An upper bound of the aggregate duration of the intermittent control signals of Channel Closing Transmission Time is calculated by: C = N X Dwell; where C is the Closing Time, N is the number of spectrum analyzer sampling bins showing a U-NII transmission and Dwell is the dwell time per bin.
5. Measure the EUT for more than 30 minutes following the channel close/move time to verify that the EUT does not resume any transmissions on this Channel.

5.7.3. Test Result

Refer to Appendix A.6.

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5.8. Statistical Performance Check Measurement 5.8.1. Test Limit

The minimum percentage of successful detection requirements found in below table when a radar burst with a

level equal to the DFS Detection Threshold + 1dB is generated on the Operating Channel of the U-NII device

(In- Service Monitoring). Radar Type 0 1 2 3 4 Aggregate (Radar Types 1-4) 5 6

Minimum Number of Trails 30 30(15 of test A and 15 of test B) 30 30 30 120 30 30

Detection Probability Pd  60% Pd  60% Pd  60% Pd  60% Pd  60% Pd  80% Pd  80% Pd  70%

Note: The percentage of successful detection is calculated by: (Total Waveform Detections / Total Waveform Trails) * 100 = Probability of Detection Radar Waveform In addition an aggregate minimum percentage of successful detection across all Short Pulse Radar Types 1-4 is required and is calculated as follows: (Pd1 + Pd2 + Pd3 + Pd4) / 4.

5.8.2. Test Procedure

1. Stream the MPEG test file from the Master Device to the Client Device on the test Channel for the entire period of the test.
2. At time T0 the Radar Waveform generator sends the individual waveform for each of the Radar Types 1-6, at levels equal to the DFS Detection Threshold + 1dB, on the Operating Channel.
3. Observe the transmissions of the EUT at the end of the Burst on the Operating Channel for duration greater than 10 seconds for Short Pulse Radar Types 0 to ensure detection occurs.
4. Observe the transmissions of the EUT at the end of the Burst on the Operating Channel for duration greater than 22 seconds for Long Pulse Radar Type 5 to ensure detection occurs.
5. The device can utilize a test mode to demonstrate when detection occurs to prevent the need to reset the device between trial runs.
6. The Minimum number of trails, minimum percentage of successful detection and the average minimum percentage of successful detection are found in below table

5.8.3. Test Result

Refer to Appendix A.7.

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Appendix A ­ Test Result

A.1 Calibration Test Result

Test Site Test Date

WZ-SR4 2022-07-09

Test Engineer Test Item

Jake Lan Radar Waveform Calibration

Radar #0

Radar Waveform Calibration Radar #1 (Test A)
PRI = 898us and the number of pulses = 59

Radar #1 (Test B) PRI = 1749us and the number of pulses = 31

Radar #2

Radar #3

Radar #4

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Radar #5

Report No.: 2206RSU048-U3 Radar #6

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A.2 Channel Loading Test Result

Test Site Test Date

WZ-SR4 2022-07-18

802.11ax-HE20 (5500MHz)

Report No.: 2206RSU048-U3

Test Engineer Test Item

Jake Lan Channel Loading

802.11ax-HE40 (5510MHz)

802.11ax-HE80 (5530MHz)

Test Mode

Test Frequency

Packet ratio Requirement ratio Test Result

802.11ax-HE20

5500 MHz

17.75%

 17%

Pass

802.11ax-HE40

5510 MHz

20.27%

 17%

Pass

802.11ax-HE80

5530 MHz

18.47%

 17%

Pass

Note: System testing was performed with the designated iperf test file. This file is used by IP and Frame

based systems for loading the test channel during the In-service compliance testing of the U-NII device.

Packet ratio = Time On / (Time On + Off Time).

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A.3 NII Detection Bandwidth Test Result

Test Site

WZ-SR4

Test Engineer

Jake Lan

Test Date Test Item

2022-07-18 Detection Bandwidth (802.11ax-HE20 mode - 5500MHz)

Radar Frequency

DFS Detection Trials (1=Detection, 0= No Detection)

(MHz)

1 2 3 4 5 6 7 8 9 10

Detection Rate

5490 FL

1 1 1 1 1 1 1 1 1 1

100%

5495

1 1 1 1 1 1 1 1 1 1

100%

5500

1 1 1 1 1 1 1 1 1 1

100%

5505

1 1 1 1 1 1 1 1 1 1

100%

5509

1 1 1 1 1 1 1 1 1 1

100%

5510 FH

1 1 1 1 1 1 1 1 1 1

100%

Note 1: All NII channels for this device have identical Channel bandwidths. Therefore, all DFS testing was

done at 5500MHz. The 99% channel bandwidth is 18.932MHz. (See the 99% BW section of the RF report for

further measurement details).

Note 2: Detection Bandwidth = FH - FL = 5510MHz ­ 5490MHz = 20MHz

Note 3: NII Detection Bandwidth Min. Limit (MHz): 18.932MHz x 100% = 18.932MHz.

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Test Site Test Date Test Item

WZ-SR4

Test Engineer

Jake Lan

2022-07-18

Detection Bandwidth (802.11ax-HE40 mode - 5510MHz)

Radar Frequency

DFS Detection Trials (1=Detection, 0= No Detection)

(MHz)

1 2 3 4 5 6 7 8 9 10

Detection Rate

5490 FL

1 1 1 1 1 1 1 1 1 1

100%

5495

1 1 1 1 1 1 1 1 1 1

100%

5500

1 1 1 1 1 1 1 1 1 1

100%

5505

1 1 1 1 1 1 1 1 1 1

100%

5510

1 1 1 1 1 1 1 1 1 1

100%

5515

1 1 1 1 1 1 1 1 1 1

100%

5520

1 1 1 1 1 1 1 1 1 1

100%

5525

1 1 1 1 1 1 1 1 1 1

100%

5530 FH

1 1 1 1 1 1 1 1 1 1

100%

Note 1: All NII channels for this device have identical Channel bandwidths. Therefore, all DFS testing was

done at 5510MHz. The 99% channel bandwidth is 37.71MHz. (See the 99% BW section of the RF report for

further measurement details).

Note 2: Detection Bandwidth = FH - FL = 5530MHz - 5490MHz = 40MHz.

Note 3: NII Detection Bandwidth Min. Limit (MHz): 37.71MHz x 100% = 37.71MHz.

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Test Site Test Date Test Item

WZ-SR4

Test Engineer

Jake Lan

2022-07-18

Detection Bandwidth (802.11ax-HE80 mode - 5530MHz)

Radar Frequency

DFS Detection Trials (1=Detection, 0= No Detection)

(MHz)

1 2 3 4 5 6 7 8 9 10

Detection Rate

5490 FL

1 1 1 1 1 1 1 1 1 1

100%

5495

1 1 1 1 1 1 1 1 1 1

100%

5500

1 1 1 1 1 1 1 1 1 1

100%

5505

1 1 1 1 1 1 1 1 1 1

100%

5510

1 1 1 1 1 1 1 1 1 1

100%

5515

1 1 1 1 1 1 1 1 1 1

100%

5520

1 1 1 1 1 1 1 1 1 1

100%

5525

1 1 1 1 1 1 1 1 1 1

100%

5530

1 1 1 1 1 1 1 1 1 1

100%

5535

1 1 1 1 1 1 1 1 1 1

100%

5540

1 1 1 1 1 1 1 1 1 1

100%

5545

1 1 1 1 1 1 1 1 1 1

100%

5550

1 1 1 1 1 1 1 1 1 1

100%

5555

1 1 1 1 1 1 1 1 1 1

100%

5560

1 1 1 1 1 1 1 1 1 1

100%

5565

1 1 1 1 1 1 1 1 1 1

100%

5570 FH

1 1 1 1 1 1 1 1 1 1

100%

Note 1: All NII channels for this device have identical Channel bandwidths. Therefore, all DFS testing was

done at 5530MHz. The 99% channel bandwidth is 77.182MHz. (See the 99% BW section of the RF report for

further measurement details).

Note 2: Detection Bandwidth = FH - FL = 5570MHz - 5490MHz = 80MHz.

Note 3: NII Detection Bandwidth Min. Limit (MHz): 77.182MHz x 100% = 77.182MHz.

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A.4 Initial Channel Availability Check Time Test Result

Test Site

WZ-SR4

Test Engineer

Jake Lan

Test Date Test Item

2022-07-09 Initial Channel Availability Check Time (802.11ax-HE20 mode - 5500MHz)

Initial Channel Availability Check Time

Note: The EUT does not transmit any beacon or data transmissions until at least 1 minute after the completion of the power-on cycle (38.78 sec). Initial beacons/data transmissions are indicated by marker 1 (98.78 sec).

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A.5 Radar Burst at the Beginning of the Channel Availability Check Time Test Result

Test Site

WZ-SR4

Test Engineer

Jake Lan

Test Date Test Item

2022-07-09 Beginning of the Channel Availability Check Time (802.11ax-HE20 mode 5500MHz)

Beginning of the Channel Availability Check Time

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A.6 Radar Burst at the End of the Channel Availability Check Time Test Result

Test Site

WZ-SR4

Test Engineer

Jake Lan

Test Date Test Item

2022-07-09 End of the Channel Availability Check Time (802.11ax-HE20 mode - 5500MHz)

End of the Channel Availability Check Time

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A.7 In-Service Monitoring for Channel Move Time, Channel Closing Transmission Time and Non-Occupancy Period Test Result

Test Site

WZ-SR4

Test Engineer

Jake Lan

Test Date Test Item

2022-07-09 Channel Move Time and Channel Closing Transmission Time (802.11ax-HE80 mode - 5530MHz)

Channel Move Time and Channel Closing Transmission Time

Non-Occupancy Period

Parameter

Test Result

Limit

Channel Move Time (s)

0.456s

10s

Channel Closing Transmission Time (ms) (Note)

9ms

 60ms

Non-Occupancy Period (min)

 30min

 30 min

Note: The Channel Closing Transmission Time is comprised of 200 milliseconds starting at the beginning of

the Channel Move Time plus any additional intermittent control signals required to facilitate a Channel move

(an aggregate of 60 milliseconds) during the remainder of the 10 seconds period. The aggregate duration of

control signals will not count quiet periods in between transmissions.

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A.8 Statistical Performance Check

Test Site Test Date Test Item

WZ-SR4

Test Engineer

Jake Lan

2022-07-20

Radar Statistical Performance Check (802.11ax-HE20 ­ 5500MHz)

Radar Type 1-4 - Radar Statistical Performance

Trial

Radar Type 1

Radar Type 2

Radar Type 3

Radar Type 4

Frequency 1=detect

Frequency

1=detect

Frequency

1=detect

Frequency

1=detect

(MHz)

0=no detect

(MHz)

0=no detect

(MHz)

0=no detect

(MHz)

0=no detect

0

5499

1

5492

1

5491

1

5497

1

1

5490

1

5491

0

5510

1

5505

1

2

5492

1

5498

1

5506

0

5503

1

3

5507

1

5507

1

5496

1

5496

1

4

5502

1

5495

0

5494

1

5508

1

5

5496

1

5500

1

5510

1

5509

0

6

5501

1

5510

0

5498

1

5490

1

7

5494

1

5504

1

5492

1

5510

1

8

5503

1

5503

1

5497

0

5504

0

9

5492

1

5496

1

5495

1

5495

1

10

5498

1

5504

0

5506

1

5500

0

11

5492

1

5502

1

5491

1

5498

1

12

5490

1

5504

0

5501

1

5500

1

13

5503

1

5496

1

5494

1

5494

0

14

5493

1

5506

1

5490

1

5495

1

15

5510

1

5510

1

5510

1

5508

1

16

5508

1

5495

1

5507

1

5496

0

17

5503

1

5500

1

5499

0

5492

0

18

5509

1

5506

1

5490

0

5502

1

19

5492

1

5502

1

5500

1

5508

1

20

5500

1

5493

1

5502

1

5509

1

21

5505

1

5490

1

5504

1

5503

1

22

5493

1

5498

1

5510

1

5510

1

23

5503

1

5499

0

5505

1

5501

1

24

5498

1

5507

1

5494

0

5497

1

25

5500

1

5500

1

5501

1

5490

1

26

5494

1

5497

1

5496

1

5507

1

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Radar Type 1-4 - Radar Statistical Performance

Trial
27 28 29 Probability: Aggregate:

Radar Type 1

Frequency 1=detect

(MHz)

0=no detect

5510

1

5493

1

5498

1

100.0%

Radar Type 2

Radar Type 3

Frequency

1=detect

Frequency

1=detect

(MHz)

0=no detect

(MHz)

0=no detect

5495

1

5492

1

5500

1

5510

1

5491

0

5498

0

76.7%

80.0%

(100% + 76.7% + 80.0% + 80.0%) / 4 = 84.2% (>80%)

Radar Type 4

Frequency 1=detect

(MHz)

0=no detect

5499

1

5507

1

5508

1

80.0%

Radar Type 1 - Radar Waveform

Radar Type 2 - Radar Waveform

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Radar Type 4 - Radar Waveform

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Trail #
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14

Radar Type 5 - Radar Statistical Performance

Test Freq. (MHz)

1=Detection

Trail #

Test Freq. (MHz)

0=No Detection

5500

1

15

5492.4

5500

1

16

5494.8

5500

1

17

5496.8

5500

1

18

5494.8

5500

1

19

5495.2

5500

1

20

5507.2

5500

1

21

5503.2

5500

1

22

5503.2

5500

1

23

5504.4

5500

1

24

5504

5492.4

1

25

5502.4

5498

1

26

5503.2

5497.6

1

27

5507.2

5492

1

28

5504.8

5494

1

29

5505.6

Detection Percentage (%)

90.0%

1=Detection 0=No Detection
1 0 1 0 0 1 1 1 1 1 1 1 1 1 1

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Type 5 Radar Waveform_1

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Type 5 Radar Waveform_3 Type 5 Radar Waveform_4

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Type 5 Radar Waveform_6 Type 5 Radar Waveform_7

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Type 5 Radar Waveform_9

Type 5 Radar Waveform_10

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Type 5 Radar Waveform_12

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Type 5 Radar Waveform_14

Type 5 Radar Waveform_15

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Type 5 Radar Waveform_17

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Type 5 Radar Waveform_19

Type 5 Radar Waveform_20

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Type 5 Radar Waveform_22

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Type 5 Radar Waveform_24

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Type 5 Radar Waveform_26

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Type 5 Radar Waveform_28

Type 5 Radar Waveform_29

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Radar Type 6 - Radar Statistical Performance

Trail #

1=Detection

Trail #

0=No Detection

0

1

15

1

1

16

2

1

17

3

1

18

4

1

19

5

1

20

6

1

21

7

1

22

8

1

23

9

1

24

10

1

25

11

1

26

12

1

27

13

1

28

14

1

29

Detection Percentage (%)

96.7%

1=Detection 0=No Detection
1 1 1 1 1 1 1 1 1 0 1 1 1 1 1

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Type 6 Radar Waveform_1

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Type 6 Radar Waveform_3

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Type 6 Radar Waveform_5

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Type 6 Radar Waveform_7

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Type 6 Radar Waveform_9

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Type 6 Radar Waveform_11

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Type 6 Radar Waveform_13

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Type 6 Radar Waveform_15

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Type 6 Radar Waveform_17

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Type 6 Radar Waveform_19

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Type 6 Radar Waveform_21

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Type 6 Radar Waveform_23

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Type 6 Radar Waveform_25

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Type 6 Radar Waveform_27

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Type 6 Radar Waveform_29

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Test Site Test Date Test Item

WZ-SR4

Test Engineer

Jake Lan

2022-07-20

Radar Statistical Performance Check (802.11ax-HE40 ­ 5510MHz)

Radar Type 1-4 - Radar Statistical Performance

Trial

Radar Type 1

Radar Type 2

Radar Type 3

Radar Type 4

Frequency 1=detect Frequency 1=detect Frequency 1=detect Frequency 1=detect

(MHz)

0=no detect

(MHz)

0=no detect

(MHz)

0=no detect

(MHz)

0=no detect

0

5519

1

5530

1

5502

1

5494

0

1

5510

1

5525

1

5521

1

5490

1

2

5491

1

5494

1

5508

1

5497

1

3

5522

1

5492

1

5496

1

5527

1

4

5518

1

5509

1

5497

1

5515

1

5

5520

1

5527

0

5529

1

5517

1

6

5510

1

5499

1

5526

1

5504

1

7

5515

1

5512

1

5514

1

5518

1

8

5530

1

5521

1

5503

1

5504

1

9

5529

0

5505

0

5490

1

5500

1

10

5490

1

5494

1

5511

1

5491

1

11

5518

1

5527

1

5513

1

5522

1

12

5505

1

5512

1

5500

1

5521

1

13

5523

1

5510

1

5494

0

5525

1

14

5512

1

5524

0

5504

1

5516

1

15

5518

1

5501

1

5516

1

5529

0

16

5525

1

5517

1

5499

0

5516

1

17

5518

1

5508

0

5513

1

5522

1

18

5501

1

5526

0

5495

0

5504

0

19

5498

1

5490

1

5510

1

5525

1

20

5527

1

5512

0

5497

1

5497

1

21

5500

1

5527

0

5519

0

5508

1

22

5512

1

5517

1

5496

0

5523

1

23

5528

1

5502

1

5527

1

5509

1

24

5521

1

5521

1

5504

1

5513

1

25

5502

1

5496

1

5516

1

5519

1

26

5508

1

5491

1

5522

1

5530

1

70 of 135

Report No.: 2206RSU048-U3

Radar Type 1-4 - Radar Statistical Performance

Trial
27 28 29 Probability: Aggregate:

Radar Type 1

Frequency 1=detect

(MHz)

0=no detect

5509

1

5523

1

5521

1

96.7%

Radar Type 2

Radar Type 3

Frequency

1=detect

Frequency

1=detect

(MHz)

0=no detect

(MHz)

0=no detect

5509

1

5518

1

5524

1

5530

1

5497

1

5517

1

76.7%

83.3%

(96.7% + 76.7% + 83.3% + 90.0%) / 4 = 86.7% (>80%)

Radar Type 4

Frequency 1=detect

(MHz)

0=no detect

5510

1

5495

1

5518

1

90.0%

Radar Type 1 - Radar Waveform

Radar Type 2 - Radar Waveform

71 of 135

Radar Type 3 - Radar Waveform

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Radar Type 4 - Radar Waveform

72 of 135

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Trail #
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14

Radar Type 5 - Radar Statistical Performance

Test Freq. (MHz)

1=Detection

Trail #

Test Freq. (MHz)

0=No Detection

5510

1

15

5492.8

5510

1

16

5496.4

5510

1

17

5494.4

5510

1

18

5492

5510

1

19

5492

5510

1

20

5523.2

5510

1

21

5524

5510

1

22

5525.6

5510

1

23

5523.2

5510

1

24

5524.8

5496.4

1

25

5523.6

5492

1

26

5525.2

5494.8

1

27

5527.6

5492.8

1

28

5524.8

5492.8

1

29

5527.2

Detection Percentage (%)

96.7%

1=Detection 0=No Detection
1 1 1 1 1 1 1 1 1 1 1 1 1 0 1

73 of 135

Type 5 Radar Waveform_0

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_1 Type 5 Radar Waveform_2
74 of 135

Type 5 Radar Waveform_3

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Type 5 Radar Waveform_4

Type 5 Radar Waveform_5

75 of 135

Type 5 Radar Waveform_6

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Type 5 Radar Waveform_7

76 of 135

Type 5 Radar Waveform_8

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Type 5 Radar Waveform_9

77 of 135

Type 5 Radar Waveform_10

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Type 5 Radar Waveform_11 Type 5 Radar Waveform_12

78 of 135

Type 5 Radar Waveform_13

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_14

Type 5 Radar Waveform_15

79 of 135

Type 5 Radar Waveform_16

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Type 5 Radar Waveform_17 Type 5 Radar Waveform_18
80 of 135

Type 5 Radar Waveform_19

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Type 5 Radar Waveform_20

81 of 135

Type 5 Radar Waveform_21

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Type 5 Radar Waveform_22

82 of 135

Type 5 Radar Waveform_23

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Type 5 Radar Waveform_24

83 of 135

Type 5 Radar Waveform_25

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Type 5 Radar Waveform_26 Type 5 Radar Waveform_27
84 of 135

Type 5 Radar Waveform_28

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_29

85 of 135

Report No.: 2206RSU048-U3

Radar Type 6 - Radar Statistical Performance

Trail #

1=Detection

Trail #

0=No Detection

0

1

15

1

1

16

2

1

17

3

1

18

4

1

19

5

1

20

6

1

21

7

1

22

8

1

23

9

1

24

10

1

25

11

1

26

12

1

27

13

1

28

14

1

29

Detection Percentage (%)

100.0%

1=Detection 0=No Detection
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

86 of 135

Type 6 Radar Waveform_0

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_1

87 of 135

Type 6 Radar Waveform_2

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Type 6 Radar Waveform_3

88 of 135

Type 6 Radar Waveform_4

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Type 6 Radar Waveform_5

89 of 135

Type 6 Radar Waveform_6

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_7

90 of 135

Type 6 Radar Waveform_8

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_9

91 of 135

Type 6 Radar Waveform_10

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_11

92 of 135

Type 6 Radar Waveform_12

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_13

93 of 135

Type 6 Radar Waveform_14

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_15

94 of 135

Type 6 Radar Waveform_16

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_17

95 of 135

Type 6 Radar Waveform_18

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_19

96 of 135

Type 6 Radar Waveform_20

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_21

97 of 135

Type 6 Radar Waveform_22

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Type 6 Radar Waveform_23

98 of 135

Type 6 Radar Waveform_24

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_25

99 of 135

Type 6 Radar Waveform_26

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_27

100 of 135

Type 6 Radar Waveform_28

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_29

101 of 135

Report No.: 2206RSU048-U3

Test Site Test Date Test Item

WZ-SR4

Test Engineer

Jake Lan

2022-07-20

Radar Statistical Performance Check (802.11ax-HE80 ­ 5530MHz)

Radar Type 1-4 - Radar Statistical Performance

Trial

Radar Type 1

Radar Type 2

Radar Type 3

Radar Type 4

Frequency 1=detect Frequency 1=detect Frequency 1=detect Frequency 1=detect

(MHz)

0=no detect

(MHz)

0=no detect

(MHz)

0=no detect

(MHz)

0=no detect

0

5553

1

5493

1

5504

1

5495

1

1

5522

1

5509

1

5567

1

5526

1

2

5569

1

5555

1

5490

1

5551

1

3

5549

1

5503

1

5535

0

5548

1

4

5531

1

5506

1

5493

1

5500

1

5

5537

1

5561

1

5504

1

5508

1

6

5497

1

5518

1

5539

1

5570

1

7

5505

1

5495

1

5495

1

5500

1

8

5523

1

5564

1

5525

1

5490

1

9

5499

1

5490

1

5535

1

5544

1

10

5524

1

5551

1

5550

0

5568

1

11

5551

1

5549

1

5514

1

5550

1

12

5519

1

5530

1

5530

1

5540

0

13

5543

1

5565

1

5526

1

5517

1

14

5545

1

5538

1

5507

1

5511

1

15

5537

1

5500

1

5566

1

5533

1

16

5505

1

5554

1

5544

1

5561

1

17

5526

1

5553

1

5498

1

5557

1

18

5547

1

5533

1

5563

1

5567

1

19

5495

1

5502

1

5557

1

5513

0

20

5570

1

5532

1

5527

1

5556

0

21

5551

1

5540

1

5505

1

5568

1

22

5563

1

5494

1

5510

1

5559

0

23

5525

1

5531

1

5538

1

5518

1

24

5530

1

5536

1

5540

1

5496

1

25

5505

1

5570

1

5570

1

5549

1

26

5567

1

5556

1

5514

1

5530

1

102 of 135

Report No.: 2206RSU048-U3

Radar Type 1-4 - Radar Statistical Performance

Trial
27 28 29 Probability: Aggregate:

Radar Type 1

Frequency 1=detect

(MHz)

0=no detect

5490

1

5549

1

5560

1

100.0%

Radar Type 2

Radar Type 3

Frequency 1=detect Frequency 1=detect

(MHz)

0=no detect

(MHz)

0=no detect

5555

1

5563

1

5508

1

5499

1

5547

1

5537

0

100.0%

90.0%

(100% + 100% + 90.0% + 83.3%) / 4 = 93.3% (>80%)

Radar Type 4

Frequency 1=detect

(MHz)

0=no detect

5514

0

5493

1

5513

1

83.3%

Radar Type 1 - Radar Waveform

Radar Type 2 - Radar Waveform

103 of 135

Radar Type 3 - Radar Waveform

Report No.: 2206RSU048-U3
Radar Type 4 - Radar Waveform

104 of 135

Report No.: 2206RSU048-U3

Trail #
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14

Radar Type 5 - Radar Statistical Performance

Test Freq. (MHz)

1=Detection

Trail #

Test Freq. (MHz)

0=No Detection

5530

1

15

5495.6

5530

1

16

5494.4

5530

1

17

5497.2

5530

1

18

5497.2

5530

1

19

5494.4

5530

1

20

5566.4

5530

1

21

5565.2

5530

1

22

5566.8

5530

1

23

5568

5530

1

24

5567.2

5492.4

1

25

5567.2

5497.2

1

26

5562.8

5493.2

1

27

5566

5496.8

1

28

5566.4

5493.6

1

29

5566

Detection Percentage (%)

96.7%

1=Detection 0=No Detection
1 1 1 1 1 1 1 1 0 1 1 1 1 1 1

105 of 135

Type 5 Radar Waveform_0

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_1

106 of 135

Type 5 Radar Waveform_2

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_3

107 of 135

Type 5 Radar Waveform_4

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_5

Type 5 Radar Waveform_6

108 of 135

Type 5 Radar Waveform_7

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_8 Type 5 Radar Waveform_9

109 of 135

Type 5 Radar Waveform_10

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_11

Type 5 Radar Waveform_12
110 of 135

Type 5 Radar Waveform_13

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_14

111 of 135

Type 5 Radar Waveform_15

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_16

112 of 135

Type 5 Radar Waveform_17

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_18

113 of 135

Type 5 Radar Waveform_19

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_20 Type 5 Radar Waveform_21

114 of 135

Type 5 Radar Waveform_22

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_23 Type 5 Radar Waveform_24

115 of 135

Type 5 Radar Waveform_25

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_26

Type 5 Radar Waveform_27
116 of 135

Type 5 Radar Waveform_28

Report No.: 2206RSU048-U3

Type 5 Radar Waveform_29

117 of 135

Report No.: 2206RSU048-U3

Radar Type 6 - Radar Statistical Performance

Trail #

1=Detection

Trail #

0=No Detection

0

1

15

1

1

16

2

1

17

3

1

18

4

1

19

5

1

20

6

1

21

7

1

22

8

1

23

9

1

24

10

1

25

11

1

26

12

1

27

13

1

28

14

1

29

Detection Percentage (%)

100.0%

1=Detection 0=No Detection
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

118 of 135

Type 6 Radar Waveform_0

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_1

119 of 135

Type 6 Radar Waveform_2

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_3

120 of 135

Type 6 Radar Waveform_4

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_5

121 of 135

Type 6 Radar Waveform_6

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_7

122 of 135

Type 6 Radar Waveform_8

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_9

123 of 135

Type 6 Radar Waveform_10

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_11

124 of 135

Type 6 Radar Waveform_12

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_13

125 of 135

Type 6 Radar Waveform_14

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_15

126 of 135

Type 6 Radar Waveform_16

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_17

127 of 135

Type 6 Radar Waveform_18

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_19

128 of 135

Type 6 Radar Waveform_20

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_21

129 of 135

Type 6 Radar Waveform_22

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_23

130 of 135

Type 6 Radar Waveform_24

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_25

131 of 135

Type 6 Radar Waveform_26

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_27

132 of 135

Type 6 Radar Waveform_28

Report No.: 2206RSU048-U3

Type 6 Radar Waveform_29

133 of 135

Appendix B ­ Test Setup Photograph
Refer to "2206RSU048-UT" file.

Report No.: 2206RSU048-U3

134 of 135

Appendix C ­ EUT Photograph
Refer to "2206RSU048-UE" file.

Report No.: 2206RSU048-U3

The End 135 of 135