DFS Test Report

FCC ID: QISAGS-L03

Test Report

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FCCID_3412273

FCC DFS Test Report FCC ID: QISAGS-L03 This report concerns (check one): Original Grant Class I Change Class II Change Project No. : 1705C003 Equipment : Huawei MediaPad T3 10 (MediaPad T3 10 for short) Model Name : AGS-L03 Applicant : Huawei Technologies Co., Ltd. Address : Administration Building, Headquarters of Huawei Technologies Co., Ltd., Bantian, Longgang District,Shenzhen, 518129, P.R.C Date of Receipt : May 02, 2017 Date of Test : May 02, 2017 ~ May 19, 2017 Issued Date : May 22, 2017 Tested by : BTL Inc. Testing Engineer : (Shawn Xiao) Technical Manager : (David Mao) Authorized Signatory : (Steven Lu) BTL INC. No.3, Jinshagang 1st Road, Shixia, Dalang Town, Dongguan, Guangdong, China. TEL: +86-769-8318-3000 FAX: +86-769-8319-6000 Report No.: BTL-FCCP-5-1705C003 Page 1 of 21

Declaration BTL represents to the client that testing is done in accordance with standard procedures as applicable and that test instruments used has been calibrated with standards traceable to international standard(s) and/or national standard(s). BTL's reports apply only to the specific samples tested under conditions. It is manufacture’s responsibility to ensure that additional production units of this model are manufactured with the identical electrical and mechanical components. BTLshall have no liability for any declarations, inferences or generalizations drawn by the client or others from BTL issued reports. BTL’s report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the Federal Government. This report is the confidential property of the client. As a mutual protection to the clients, the public and BTL-self, extracts from the test report shall not be reproduced except in full with BTL’s authorized written approval. BTL’s laboratory quality assurance procedures are in compliance with the ISO Guide 17025 requirements, and accredited by the conformity assessment authorities listed in this test report. Limitation For the use of the authority's logo is limited unless the Test Standard(s)/Scope(s)/Item(s) mentioned in this test report is (are) included in the conformity assessment authorities acceptance respective. Report No.: BTL-FCCP-5-1705C003 Page 2 of 21

Table of Contents page 1 . CERTIFICATION 5 2 . EUT INFORMATION 6 2.1 EUT SPECIFICATION TABLE 6 2.2 CONDUCTED OUTPUT POWER AND EIRP 7 3 .U-NII DFS RULE REQUIREMENTS 8 3.1 WORKING MODES AND REQUIRED TEST ITEMS 8 3.2 TEST LIMITS AND RADAR SIGNAL PARAMETERS 9 4 . TEST INSTRUMENTS 12 5 .EMC EMISSION TEST 13 5.1 DFS MEASUREMENT SYSTEM: 13 5.2 CALIBRATION OF DFS DETECTION THRESHOLD LEVEL 16 5.3 DEVIATION FROM TEST STANDARD 16 6 . TEST RESULTS 17 6.1 SUMMARY OF TEST RESULT 17 6.2 TEST MODE: DEVICE OPERATING IN MASTER MODE. 17 6.3 DFS DETECTION THRESHOLD 17 6.4 CHANNEL CLOSING TRANSMISSION AND CHANNEL MOVE TIME WLAN TRAFFIC 18 6.5 NON- OCCUPANCY PERIOD 21 Report No.: BTL-FCCP-5-1705C003 Page 3 of 21

REPORT ISSUED HISTORY Issued No. Description Issued Date BTL-FCCP-5-1705C003 Original Issue. May 22, 2017 Report No.: BTL-FCCP-5-1705C003 Page 4 of 21

1. CERTIFICATION Equipment : Huawei MediaPad T3 10 (MediaPad T3 10 for short) Brand Name : HUAWEI Model Name : AGS-L03 Applicant : Huawei Technologies Co., Ltd. Manufacturer : Huawei Technologies Co., Ltd. Address : Administration Building, Headquarters of Huawei Technologies Co., Ltd., Bantian, Longgang District,Shenzhen, 518129, P.R.C Factory : Huawei Technologies Co., Ltd. Address : Administration Building, Headquarters of Huawei Technologies Co., Ltd., Bantian, Longgang District,Shenzhen, 518129, P.R.C Date of Test : May 02, 2017 ~ May 19, 2017 Test Sample : Engineering Sample Standard(s) : FCC Part 15, Subpart E (Section 15.407) FCC KDB 789033 D02 General UNII Test Procedures New Rules v01r02 905462 D02 UNII DFS Compliance Procedures New Rules v02 The above equipment has been tested and found compliance with the requirement of the relative standards by BTL Inc. The test data, data evaluation, and equipment configuration contained in our test report (Ref No. BTL-FCCP-5-1705C003) were obtained utilizing the test procedures, test instruments, test sites that has been accredited by the Authority of TAF according to the ISO-17025 quality assessment standard and technical standard(s). Test result included in this report is only for the DFS Slave part. Report No.: BTL-FCCP-5-1705C003 Page 5 of 21

2. EUT INFORMATION 2.1 EUT SPECIFICATION TABLE Table 1: Specification of EUT Product Name Huawei MediaPad T3 10 (MediaPad T3 10 for short) Brand Name HUAWEI Model Name AGS-L03 Mode Different N/A Operational Mode Slave Operating FrequencyRange 5250-5350MHz & 5470-5725MHz Modulation OFDM . Note: This device was functioned as a Master Slave device without radar detection 1. Antenna Specification: Antenna Gain Ant. Brand Model Name Connector Type (dBi) 1 N/A N/A Internal N/A 1 2. The EUT contains following accessory devices: Item Mfr/Brand Model. Sunwoda Electronic Co., LTD HB3080G1EBC/ Battery Harbin Coslight Power Co.,Ltd. HB3080G1EBW JIANGXI LIANCHUANG HONGSHENG 22040150 ELECTRONIC CO., LTD Earphone BOLUO COUNTY QUANCHENG ELECTRONIC 22040150 CO., LTD Goer Tek Inc 22040150 Shenzhen Luxshare Precision Industry Co.,Ltd. L99U2017-CS-H USB FOXCONN INTERCONNECT TECHNOLOGY CUBB01M-HC304-DH Cable LIMITED HONGLIN TECHNOLOGY CO.,LTD 130-26988 DONGGUAN PHITEK ELECTRONICS CO.,LTD. HW-050100U01 HW-050100A01 Adapter SHENZHEN HUNTKEY ELECTRONIC CO.,LTD. HW-050100E01 HUIZHOU BYD ELECTRONIC CO., LTD. HW-050100B01 Report No.: BTL-FCCP-5-1705C003 Page 6 of 21

2.2 CONDUCTED OUTPUT POWER AND EIRP Table 2: THE Conducted Output Power and EIRP List Mode: TX (11a) Frequency Max Couducted Output Antenna Max EIRP Max EIRP Band (MHz) Power (dBm) Gain (dBm) (mW) 5260~5320 17.23 1 18.23 66.527 5500~5700 17.50 1 18.50 70.795 Mode: TX (11n 40MHz) Frequency Max Couducted Output Antenna Max EIRP Max EIRP Band (MHz) Power (dBm) Gain (dBm) (mW) 5260~5320 17.18 1 18.18 65.766 5500~5700 17.37 1 18.37 68.707 Report No.: BTL-FCCP-5-1705C003 Page 7 of 21

3.U-NII DFS RULE REQUIREMENTS 3.1 WORKING MODES AND REQUIRED TEST ITEMS The manufacturer shall state whether the UUT is capable of operating as a Master and/or a Client. If the UUT is capable of operating in more than one operating mode then each operating mode shall be tested separately. See tables 1 and 2 for the applicability of DFS requirements for each of the operational modes. Table 3: Applicability of DFS requirements prior to use a channel Operational Mode Requirement Client without Client with radar Master radar detection detection Non-Occupancy Period Not required DFS Detection Threshold Not required Channel Availability Check Time Not required Not required Uniform Spreading Not required Not required U-NII Detection Bandwidth Not required Table 4: Applicability of DFS requirements during normal operation. Operational Mode Requirement Client without Client with radar Master radar detection detection DFS Detection Threshold Not required Channel Closing Transmission Time Channel Move Time U-NII Detection Bandwidth Not required Report No.: BTL-FCCP-5-1705C003 Page 8 of 21

3.2 TEST LIMITS AND RADAR SIGNAL PARAMETERS DETECTION THRESHOLD VALUES Table 5: DFS Detection Thresholds for Master Devices and Client Devices With Radar Detection. Value Maximum Transmit Power (See Notes 1 and 2) EIRP≥ 200 milliwatt -64 Bm EIRP < 200 milliwatt and -62 dBm Power pectral density < 10 dBm/MHz EIRP < 200 milliwatt that do not meet the -64 dBm power spectral density requirement 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. Report No.: BTL-FCCP-5-1705C003 Page 9 of 21

Table 6: DFS Response Requirement Values Parameter Value Non-occupancy period Minimum 30 minutes Channel Availability Check Time 60 seconds Channel Move Time 10 seconds See Note 1. 200 milliseconds + an aggregate of 60 Channel Closing Transmission Time milliseconds over remaining 10 second period. See Notes 1 and 2. Minimum 100% of the UNII U-NII Detection Bandwidth 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. Report No.: BTL-FCCP-5-1705C003 Page 10 of 21

PARAMETERS OF DFS TEST SIGNALS 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. Table 7: Short Pulse Radar Test Waveforms. 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. If more than 30 waveforms are used for Short Pulse Radar Type 1, then each additional waveform is generated with Test B and must also be unique and not repeated from the previous waveforms in Tests A or B. Report No.: BTL-FCCP-5-1705C003 Page 11 of 21

Table 8: Long Pulse Radar Test Waveform Minimum Pulse Chirp Number Percentage Minimum Radar PRI Number Width Width of Pulses of Number Type (µsec) of Bursts (µsec) (MHz) per Burst Successful of Trials Detection 5 50-100 5-20 1000-2000 1-3 8-20 80% 30 The parameters for this waveform are randomly chosen The center frequency for each of the 30 trials of the Bin 5 radar shall be randomly selected within 80% of the Occupied Bandwidth. 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. Table 9: Frequency Hopping Radar Test Waveform Minimum Pulse Chirp Number Minimum Radar PRI Number Percentage of Width Width of Pulses Number Type (µsec) of Bursts Successful (µsec) (MHz) per Burst of Trials Detection 6 1 333 9 0.333 300 70% 30 4. TEST INSTRUMENTS Table 10: Test instruments list. Calibration DESCRIPTION MANUFACTURER MODEL NO. Serial No Until EXA Spectrum Agilent N9010A MY50520044 Mar. 26, 2018 Analyzer Signal Agilent E4438C MY49071316 Mar. 26, 2018 Generator POWER Mini-Circuits ZFRSC-123-S+ 331000910-1 Feb. 25, 2018 SPLITTER POWER Mini-Circuits ZN4PD1-63-S+ SF9335D1045-1 Feb. 22, 2018 SPLITTER Attenuator WOKEN 6SM3502 VAS1214NL Mar. 01, 2018 Note: Calibration interval of instruments listed above is one year. Report No.: BTL-FCCP-5-1705C003 Page 12 of 21

5.EMC EMISSION TEST 5.1 DFS MEASUREMENT SYSTEM: Test Precedure 1. Master device and client device are set up by conduction method as the following configuration. 2. The client device is connected to notebook and to access a IP address on wireless connection with the master device. 3. Then the master device is connected to another notebook to access a IP address. 4. Finally, let the two IP addresses run traffic with each other through the Run flow software “Lan test” to reach 17% channel loading as below Setup Report No.: BTL-FCCP-5-1705C003 Page 13 of 21

Channel Loading 11a Mode 11n 40MHz Mode Report No.: BTL-FCCP-5-1705C003 Page 14 of 21

The hopping type 6 pulse parameters are fixed while the hopping sequence is based on the August 2005 NTIA Hopping Frequency List. The initial starting point randomized at run-time and each subsequent starting point is incremented by 475. Each frequency in the 100-length segment is compared to the boundaries of the EUT Detection Bandwidth and the software creates a hopping burst pattern in accordance with Section 7.4.1.3 Method #2 Simulated Freqeuncy Hopping Radar Waveform Generating Subsystem of FCC 06-96. The frequency of the signal generator is incremented in 1 MHz steps from FL to FH for each successive trial. This incremental sequence is repeated as required to generate a minimum of 30 total trials and to maintain a uniform frequency distribution over the entire Detection Bandwidth. The signal monitoring equipment consists of a spectrum analyzer set to display 8001 bins on the horizontal axis. The time-domain resolution is 2 msec / bin with a 16 second sweep time, meeting the 10 second short pulse reporting criteria. The aggregate ON time is calculated by multiplying the number of bins above a threshold during a particular observation period by the dwell time per bin, with the analyzer set to peak detection and max hold. Should multiple RF ports be utilized for the Master and/or Slave devices (for example, for diversity or MIMO implementations), additional combiner/dividers are inserted between the Master Combiner/Divider and the pad connected to the Master Device (and/or between the Slave Combiner/Divider and the pad connected to the Slave Device). Additional pads are utilized such that there is one pad at each RF port on each EUT. Report No.: BTL-FCCP-5-1705C003 Page 15 of 21

5.2 CALIBRATION OF DFS DETECTION THRESHOLD LEVEL A 50 ohm load is connected in place of the spectrum analyzer, and the spectrum analyzer is connected in place of the master device and the signal generator is set to CW mode. The amplitude of the signal generator is adjusted to yield a level of –62 dBm as measured on the spectrum analyzer. Without changing any of the instrument settings, the spectrum analyer is reconnected to the Common port of the Spectrum Analyzer Combiner/Divider. Measure the amplitude and calculate the difference from –62 dBm. Adjust the Reference Level Offset of the spectrum analyzer to this difference. The spectrum analyzer displays the level of the signal generator as received at the antenna ports of the Master Device. The interference detection threshold may be varied from the calibrated value of –62 dBm and the spectrum analyzer will still indicate the level as received by the Master Device. Set the signal generator to produce a radar waveform, trigger a burst manually and measure the level on the spectrum analyzer. Readjust the amplitude of the signal generator as required so that the peak level of the waveform is at a displayed level equal to the required or desired interference detection threshold. Separate signal generator amplitude settings are determined as required for each radar type. 5.3 DEVIATION FROM TEST STANDARD No deviation. Report No.: BTL-FCCP-5-1705C003 Page 16 of 21

6. TEST RESULTS 6.1 SUMMARY OF TEST RESULT Clause Test Parameter Remarks Pass/Fail 15.407 DFS Detection Threshold No Applicable N/A 15.407 Channel Availability Check Time Not Applicable N/A 15.407 Channel Move Time Applicable Pass 15.407 Channel Closing Transmission Time Applicable Pass 15.407 Non- Occupancy Period Applicable Pass 15.407 Uniform Spreading Not Applicable N/A 15.407 U-NII Detection Bandwidth Not Applicable N/A 6.2 TEST MODE: DEVICE OPERATING IN MASTER MODE. The EUT is slave equipment, it need a master device when testing. Master with injection at the Master. (Radar Test Waveforms are injected into the Master) 6.3 DFS DETECTION THRESHOLD Calibration: The EUT is slave equipment and it with a max gain is 1 dBi. For a detection threshold level of -62dBm and the master (Brand: Alcatel-Lucent, Model: G-240W-B, FCC ID: 2ADZRG240WB) antenna gain is 2.90 dBi, required detection threshold is -59.10 dBm (= -62+2.90). Note: Maximum Transmit Power is less than 200 milliwatt in this report, so detection threshold level is -62dBm. Report No.: BTL-FCCP-5-1705C003 Page 17 of 21

6.4 CHANNEL CLOSING TRANSMISSION AND CHANNEL MOVE TIME WLAN TRAFFIC TX (11a Mode ) Radar signal 0 Note: T0~T1 denotes the start of Channel Move Time upon the end of the last Radar burst. T2 denotes the data transmission time of 200ms from T0. T3 denotes the end of Channel Move Time. Note: An expanded plot for the device vacates the channel in the required 500ms Report No.: BTL-FCCP-5-1705C003 Page 18 of 21

TX (11n 40MHz Mode ) Radar signal 0 Note: T0~T1 denotes the start of Channel Move Time upon the end of the last Radar burst. T2 denotes the data transmission time of 200ms from T0. T3 denotes the end of Channel Move Time. Note: An expanded plot for the device vacates the channel in the required 500ms Report No.: BTL-FCCP-5-1705C003 Page 19 of 21

11a Mode Item Measured Value(s) Limit(s) Channel Move Time 0.836 10 Channel Close Time 0.005 0.26 11n 40MHz Mode Item Measured Value(s) Limit(s) Channel Move Time 0.769 10 Channel Close Time 0.004 0.26 Report No.: BTL-FCCP-5-1705C003 Page 20 of 21

6.5 NON- OCCUPANCY PERIOD During the 30 minutes observation time, UUT did not make any transmissions on a channel after a radar signal was detected on that channel by either the Channel Availability Check or the In-Service Monitoring. 5540 Non-Occupancy perrod 5550 Non-Occupancy perrod Report No.: BTL-FCCP-5-1705C003 Page 21 of 21


Document Created: 2017-10-23 14:41:10
Document Modified: 2017-10-23 14:41:10
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