Test Report_DFS

FCC ID: 2ABGH-RC555L

Test Report

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FCCID_3611818

@l Report Number: 1709FR34—01 DFS Test Report Applicant : Reliance Communications LLC Product Type : GSM/CDMAAM/CDMA/LTE mobile phone Trade Name : Orbic Model Number : RCSS5SL Applicable Standard _: FCC 47 CFR PART 15 SUBPART E ANSI €63.10:2013 Receive Date : Sep. 07, 2017 Test Period : Sep. 29 ~ Sep. 30, 2017 Issue Date : Oct.16, 2017 Issue by A Test Lab Techno Corp. «tm & «//+ No. 140—1, Changan Street, Bade District, ila%sy;l{li (I'A\F) Y ag C Taoyuan City 33465, Taiwan (R.O0.C) ’/ff?\ Tel : +886—3—2710188 / Fax : +886—3—2710190 Taiwan Accreditation Foundation accreditation number: 1330 Test Firm MRA designation number: TWOO010 Note: This report shall not be reproduced except in full, without the written. approval of A Test Lab Techno Corp. This document may be altered or revised by A Test Lab Techno Corp. personnel only, and shall be noted in the revision.section of the document. The client should not use it .to claim product endorsement by TAF, or any government agencies. The test results in the report only apply to the tested sample. 1 of 20

Report Number: 1709FR34-01 Revision History Rev. Issue Date Revisions Revised By 00 Sep. 30, 2017 Initial Issue Yao Chang 01 Oct. 16, 2017 Revised report information Nina Lin 2 of 20

@l Report Number: 1709FR34—01 Verification of Compliance Issued Date: Oct. 16, 2017 Applicant Reliance Communications LLC Product Type GSM/CDMAANCDMA/LTE mobile phone Trade Name Orbic Model Number RCS5S5L FCC ID 2ABGH—RCSSSL EUT Rated Voltage DC 5V, 2A or DC 9V, 2A Test Voltage 120 Vac / 60 Hz Applicable Standard FCC 47 CFR PART 15 SUBPART E ANSI C€63.10:2013 Test Result Complied w Ne4 Performing Lab. A Test Lab Techno Corp. sty/a @ No. 140—1, Changan Street, Bade District, j'alfg‘% " Taoyuan City 33465, Taiwan (R.O0.C) dn_ism_ Tel : +886—3—2710188 / Fax : +886—3—2710190 Taiwan Accreditation Foundation accreditation number: 1330 http:/Avww.atl—lab.com.tw/e—index.htm A Test Lab Techno Corp. tested the above equipment in accordance with the requirements set forth in the above standards. All indications of Pass/Fail in this report are opinions expressed by A Test Lab Techno Corp. based on interpretations and/or observations of test results. Measurement Uncertainties were not taken into account and are published for informational purposes only. The test results show that the equipment tested is capable of demonstrating compliance with the requirements as documented in this report. l i _ Approved By : z»y t//U\ Reviewed By &3/(’0 Qu i/ @ (Manager) (Fly Lu) (Testing Engineer) (Eric Ou Yang) 3 of 20

Report Number: 1709FR34-01 TABLE OF CONTENTS 1 EUT Description .......................................................................................................................... 5 2 Test Methodology ....................................................................................................................... 7 3 Dynamic Frequency Selection ................................................................................................... 7 3.1. Limits .................................................................................................................................... 7 3.2. Test and Measurement System ........................................................................................... 11 3.3. Test Instruments ................................................................................................................. 12 4 Test Methodology ..................................................................................................................... 13 4.1. Mode of Operation .............................................................................................................. 13 4.2. EUT Exercise Software....................................................................................................... 13 4.3. Test Site Environment ......................................................................................................... 13 5 Test Results............................................................................................................................... 14 5.1. Radar Waveforms and Traffic ............................................................................................. 14 5.2. Channel Move Time and Channel Closing Transmission Time ........................................... 18 5.3. Non-Occupancy Period....................................................................................................... 19 5.4. Non-Associated Test ........................................................................................................... 20 4 of 20

@l Report Number: 1709FR34—01 1 EUT Description [Applcant Reliance Communications LLC o9 585 Wreless Blvd, Hauppeuge, New York, 11788, United States Unimexcomm Menufacturer Room 602, Bulding—8, Shenzhen Sofware Park T3, H—Tech Park South, Nan Shan Distrct, Shenzhen, Ching Product Type GSMCDMAMICDMALTE mobile phone Trade Name Orbic Model Number resss. reeip 2aBcH—Rcsss Frequency Band Frequency fike)Renge Number onemnoisof U—NII Band THA S260 — se20 & i€EE 802. 1e U—NII Band I—C Seuo — srou s 1EEE 802. t1n 5GHe 20Mz |U—NIIBand TA S260 — se20 a Operate Frequency [ 1EEE 802.t1ee 20 MHz [uznliBand 1—C ssao — 5700 a iEEE 802.11n 5GHe «ovine |U—NilBand tA s2r0 — ser0 ? [ 12EE 802.1 tao 400Hz U—Nill Band I—C se 10 — sero a U—NII Band THA S2eo 1 1EEE 802. t1ee 80MHz U—NII Band I—C sseo 1 Modulation Type orom Equipment Type (DF5) Client wihout reder detection Type Mex, Gain (081) Antenns information IFAAntenns 15 Antenns Delivery 17X Frequency Stabilty Specifestion * 20 pom Operate Temp. Renge mg— +o C 5 of 20

@l Report Number: 1709FR34—01 Items Description Communication Mode P Based (Load Based) CFrame Based TPC Funcion Cwin Tec RMthout TPC Westher Band (§600 — 5650 MHz) CWih 5600 — 5650 WHz BVihout 5600 — 5650 Mz Beamforming Function CWih Beamforming RMthout Beamforming Coutdeer secess point indoor access point Equipment Type CFixed pointto—point scsess poin‘s RICent devices CMester Cient with redar detection ICent without redar detection Operating mode CAdHoo CBndge Cuest TestAP FCC ID preistoosis Nete DFS contrals (herdwvare or sofwware} related to redar detecion are NT accessible to the user. Menufacturer sttement contiming that information regerding the perameters ofthe detected Redar Waveforms is not available to the end user 6 of 20

@l Report Number: 1709FR34—01 2 Test Methodology The tests documented in this report were performed in accordance with ANSI C63. 10—2013, FCC CFR 47 Part 2, FCC CFR 47 Part 15 The tests documented in this report were performed in accordance with FCC KDB request m FCC KDB 905462 D02 UNIII DFS Compliance Procedures New Rules vO2 m FCC KDB 905462 D03 UNII Clients Without Radar Detection New Rules vO 1r02 Dynamic Frequency Selection Limits §15.407 (h) and FCC KDB 905462 D02 UNII DFS Compliance Procedures New Rules v02 Compliance measurement procedures for unlicensed—national information infrastructure deveies operating in the 5250—5850 MHZ and 5470—5725 MHZ bands incorporating dynamic frequency selection Table 1: Applicability of DFS Requirements Prior to Use of a Channel Operational Mode Requirement Clent Clent Master twithout 18097 (uipy aogr gotection) detection ) Non—Gccupancy Peron ¥es Notrequred ¥es DrS Detecton Thresnois ¥es Notrequred ¥es Cnamnel Availsbity Cneot Tme Yes Notrequred Notrequres U—N Detecion Bandwatn Yes Notrequred Yes Table 2: Applicability of DFS requirements during normal operation Operational Mode Requrement %iiflz;;‘f;:t;gf:t Client without Redar Detection DrS Detecton Threshors Ves Notrequred Chennel Glosing Transmission Time Ves Ves Chemel Move Time Ves Ves U—Hil Detecion Benowain Ves Notrequred Addfionalrequrements for devices with Master Device or Clent mutiple bandqw\dth modes Wiith Redar Detection Clent wthout Redar Detection g{:n‘;tizt‘e;gfg?::xdé:::kd All BW modes must be tested Not required Chennel Mave Time and Channel Test using widest BV mode Test using the widest BW mode Closing Trensmission Time avaieble aveilable forthe Iink All other tests Any single BW mode Notrequired Note Frequencies selected for statstial performance check (Section 7.8.4) should include several requencies within the redar detection bandvidth and frequencies neer the edge of the rader detection bandwicth. For 802.11 devices itis suggested to select frequencies in all 20 MHz channel blocks and a nul frequencies between the bonded 20 Wz channel blocks 7 of 20

Report Number: 1709FR34-01 Table 3: DFS Detection Thresholds for Master Devices and Client Devices With Radar Detection 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 -64 dBm 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. Note 3: EIRP is based on the highest antenna gain. For MIMO devices refer to FCC KDB Publication 662911 D01. Table 4: DFS Response Requirement Values Parameter Value Non-occupancy period Minimum 30 minutes Channel Availability Check Time 60 seconds 10 seconds Channel Move Time See Note 1. 200 milliseconds + an aggregate of 60 milliseconds over Channel Closing Transmission Time remaining 10 second period. See Notes 1 and 2. Minimum 100% of the U-NII 99% transmission power U-NII Detection Bandwidth 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. 8 of 20

Report Number: 1709FR34-01 Table 5: Short Pulse Radar Test Waveforms Minimum Minimum Pulse Width PRI Number of Percentage of Radar Type Number of (μsec) (μsec) Pulses Successful Trials Detection 0 1 1428 18 See Note 1 See Note 1 1 1 Test A: 15 unique 60% 30 PRI values randomly selected from the list of 23 PRI values in Table 5a Test B: 15 unique PRI values randomly selected within the range of 518-3066 μsec, with a minimum increment of 1 μsec, 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 1: Short Pulse Radar Type 0 should be used for the detection bandwidth test, channel move time, and channel closing time tests. 9 of 20

Report Number: 1709FR34-01 Table 5a: Pulse Repetition Intervals Values for Test A 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 6 – Long Pulse Radar Test Signal Pulses Pulse Chirp Minimum Percentage Radar Minimum Bursts per Width Width PRI (µsec) of Successful Waveform Trials Burst (µsec) (MHz) Detection 5 8-20 1-3 50-100 5-20 1000-2000 80% 30 Table 7 – Frequency Hopping Radar Test Signal Pulse Burst Pulses Hopping Minimum Percentage Radar PRI Minimum Width Length per Rate of Successful Waveform (µsec) Trials (µsec) (ms) Hop (kHz) Detection 6 1 333 300 9 0.333 70% 30 10 of 20

Report Number: 1709FR34-01 3.2. Test and Measurement System 3.2.1. Setup for Client with injection at the Master Example Radiated Setup where UUT is a Client and Radar Test Waveforms are injected into the Master 3.2.2. System Calibration The short pulse types 0,1,2, 3 and 4, and the long pulse type 5 parameters are randomized at run-time. The hopping type 6 pulse parameters are fixed while the hopping sequence is based on the May 2014 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 Frequency Hopping Radar Waveform Generating Subsystem of FCC KDB 905462 D02 UNII DFS Compliance Procedures New Rules v02 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. 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. 11 of 20

Report Number: 1709FR34-01 3.2.3. System Calibration The Interference Radar Detection Threshold Level is (-64dBm), The above equipment setup was used to calibrate the radiated 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 3 MHz. The vector signal generator amplitude was set so that the power level measured at the spectrum analyzer was (-64dBm). Capture the spectrum analyzer plots on short pulse radar types, long pulse radar type and hopping radar waveform. 3.2.4. Adjustment of Displayed Traffic Level A link is established between the Master and Slave and the distance between the units is adjusted as needed to provide a suitable received level at the Master and Slave devices. Software to ping the client is permitted to simulate data transfer but must have random ping intervals. The monitoring antenna is adjusted so that the WLAN traffic level, as displayed on the spectrum analyzer, is at lower amplitude than the radar detection threshold. 3.3. Test Instruments Equipment Manufacturer Model Number Serial Number Cal. Date Remark EXA Spectrum Amalyzer Agilent N9010A MY48030518 11/04/2016 1 year Signal Generator Agilent N5182B MY53050382 05/24/2017 1 year Double-Ridged Waveguide ETS-Lindgren 3117 00128055 09/08/2017 1 year Horm Double Ridged Horn ETS 3117 00152321 09/14/2017 1 year Antenna DFS Cable ATL DFS 009 10/12/2016 1 year EMC104-SM-SM-1 Microwave Cable EMCI 150401 12/28/2016 1 year 0000 Test Site ATL TE02 TE02 N.C.R. ----- Note N.C.R. = No Calibration Request. 12 of 20

@l Report Number: 1709FR34—01 Test Methodology Mode of Operation Decision of Test ATL has veriied the construction and function in typical operation. All the test modes were cartied out with the EUT in normal operation, which was shown in this test report and defined as Test Made Mode 1: IEEE 802.1 1ao 8OMHz Normal Link mode IEEE 802.1 ts 80MHz Continuous TX mode Unless othernise noted, all tests were performed with the rdar burst atthe channel center requency 05530 Mz Tested System Details The bpes for all equipments, plus descriptions ofall cables used in the tested system (including inserted cards ere. Product Menufacturer Model No o 1 Netgesr Access Point Netgesr R7800 FCC PY351003 10 4.2. EUT Exercise Software 1. Setup the EUT shown on 3.2.1 2. Turn on the power ofall equipment 3. Tum on WFi function link to Netebook 4. The EUT is operated in the engineering mode to fi the TX frequency for the purposes of measurement 4.3. Test Site Environment tems Required (IEC 60068—1) Actual Temperature (°C) 15—35 26 Humidty (%6RH) 25—75 so Barometrc pressure (mbar} a60—1060 a50 13 of 20

Report Number: 1709FR34-01 5 Test Results 5.1. Radar Waveforms and Traffic Mode 1: IEEE 802.11ac 80MHz Normal Link mode _ 5530MHz Short Pulse Radar Type 0 Short Pulse Radar Type 1A 14 of 20

Report Number: 1709FR34-01 Mode 1: IEEE 802.11ac 80MHz Normal Link mode _ 5530MHz Short Pulse Radar Type 1B Short Pulse Radar Type 2 15 of 20

Report Number: 1709FR34-01 Mode 1: IEEE 802.11ac 80MHz Normal Link mode _ 5530MHz Short Pulse Radar Type 3 Short Pulse Radar Type 4 16 of 20

Report Number: 1709FR34-01 Mode 1: IEEE 802.11ac 80MHz Normal Link mode _ 5530MHz Short Pulse Radar Type 5 Short Pulse Radar Type 6 17 of 20

Report Number: 1709FR34-01 5.2. Channel Move Time and Channel Closing Transmission Time 5.2.1. Reporting Notes The reference marker is set at the end of last radar pulse. The delta marker is set at the end of the last WLAN transmission following the radar pulse. This delta is the channel move time. The aggregate channel closing transmission time is calculated as follows: Aggregate Transmission Time = (Number of analyzer bins showing transmission) * (dwell time per bin) 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. Results Frequency Channel Move Time Limit Radar Type (MHz) (sec) (sec) 5530 Type 0 0.4099898 < 10 Frequency Aggregate Channel Closing Transmission Time Limit Radar Type (MHz) (msec) (msec) 5530 Type 0 2.9999 < 0.06 Mode 1: IEEE 802.11ac 80MHz Normal Link mode _ 5530MHz 18 of 20

Report Number: 1709FR34-01 5.3. Non-Occupancy Period Mode 1: IEEE 802.11ac 80MHz Normal Link mode _ 5530MHz Note: Non-Occupancy Period time is 30 minute during which a Channel will not be utilized after a Radar Waveform is detected on that Channel. 19 of 20

Report Number: 1709FR34-01 5.4. Non-Associated Test Mode 1: IEEE 802.11ac 80MHz Normal Link mode _ 5530MHz Note: The non-associated Client Beacon Test is during the 30 minutes observation time. The EUT should not make any transmissions in the DFS band after EUT power up. 20 of 20


Document Created: 2017-10-17 15:12:39
Document Modified: 2017-10-17 15:12:39
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