FCC ID: 2AS3C-CPE5450 Wireless Bridge

by: Qinwei Technology Co., LIMITED latest update: 2019-08-08 model: CPE5450

One grant has been issued under this FCC ID on 08/08/2019 (this is the only release in 2019 for this grantee). Public details available include frequency information, manuals, and internal & external photos. some products also feature user submitted or linked drivers, warrantee terms, password defaults, troubleshooting guides, & instructions.

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all	frequencies						exhibits	applications
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all exhibits 13
1 ~ 2019-08-08 13

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1	15 UserMan-US r3	Users Manual	pdf	3.04 MiB	August 08 2019
1	09 IntPho	Internal Photos	pdf	2.13 MiB	August 08 2019
1		Internal Photos	pdf		August 08 2019
1	08 ExtPho	External Photos	pdf	1.52 MiB	August 08 2019
1	06 LabelSmpl-US r1	ID Label/Location Info	pdf	180.12 KiB	August 08 2019
1	10 TSup	Test Setup Photos	pdf	1.16 MiB	August 08 2019
1	11 OpDes r4	Operational Description	pdf		August 08 2019	confidential
1	12 BlkDia	Block Diagram	pdf		August 08 2019	confidential
1	13 Schem	Schematics	pdf		August 08 2019	confidential
1	14 TestRpt NII part1 r1	Test Report	pdf	4.57 MiB	August 08 2019
1	14 TestRpt NII part2 r1	Test Report	pdf	2.65 MiB	August 08 2019
1	17 AntSpec	Operational Description	pdf	93.54 KiB	August 08 2019
1	18 RFExp	RF Exposure Info	pdf	240.81 KiB	August 08 2019

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15 UserMan-US r3

Users Manual

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3.04 MiB

August 08 2019

CPE5450/CPE5450 Master/CPE5450 Slave /CPE5450CD/CPE5450AP/CPE5450FIT/CPE80R/CPE5300/1200AP User Manual Ver1.3 Jul 2019 Product pictures SCPE(SlaveCPE) MCPE(MasterCPE) Application:PointtoPoint 1 Specifications :

1.Preparation for installation:

1-0 Shake the devices (CPE5450) separately, to check if the device is damaged from shipment, if you can hear some noise from inside of the device, and you suspect it maybe PCBA board loosened, please contact us, we will help check if you need a replacement. 11Movefrontcover 112Pushthispartandpullthefrontcoverout 2 113 12EnsureyouknowtheCPEkitarereadyforinstallation Thisstepistoverifywirelessconnectionbetween2CPE5450,tomakesuretheycantalkeachother,Italsohelpsuserto befamiliarwiththeproductandpreventanydefectiveitemcausedbydeliveryetc. Pleasebekindlynotedthatyouwillneedtoprepareeitherarouteroracomputerforthisstep.Usingbotharouterand a computer to check is preferred. If you dont have a computer, we suggest you using a cell phone and a router, currentlythedevicesdontsupportcellphone(i.c.iPhone)toaccesswebpagetoconfiguredirectly. Youjustneedtoexecuteeitherstep121orstep122.Butyoucouldneglectthese2stepsandproceedtostep(21)if youneitherhaveaWiFirouter/cabledrouter,noracomputer(PC),orifyouthinkyouknowCPEwell. 121Usingbotharouterandacomputertoverifyifthedevicesaretalkingeachother. SketchDiagram 3 Equipment:

CPE5450 1pair(2PCS) WiFirouter/cabledrouter 1pcs PC(Notebook) 1set EthernetCable 4pcs POEPowerAdapter 2pcs(EthernetCableLength:<60M,or194ft) 1211UseEthernetcabletoconnectPOEportofpoweradaptertoLANportofCPE5450(1#) 1212UseEthernetcabletoconnectWANportofCPE5450(1#)toLANportofWiFiRouter 4 1213UseEthernetcabletoconnectPOEportofpoweradaptertoWANportofCPE5450(2#) 1214UseEthernetcabletoconnectLANportofCPE5450(2#)toPC 1215SetrangebetweenCPE54501#andCPE54502#:3metersisrecommended,withoutobstaclebetween2CPEs 1216Turnonallequipment,especiallycheckasbelowtoseeif2CPE5450areturningon,waitfor1minute 5 Lightison Lightisnoton 1217Lightinformation Normallightsareasfollowings:

1218PingIPaddressoftheWiFirouter(someis:192.168.1.1or192.168.0.1)onthePC YoucouldfindIPofrouteronlabel(normallylocatedonbottomoftherouter),followingisasampleforyour reference 6 Followingis192.168.1.1,Win7OS A. ClickWindowsicon B. Inputcommandping192.168.1.1t C.Clickenterto Ping192.168.1.1t 7 FollowingmessagesindicatestheCPE5450devicesareworkingwell.Andyoudontneedtoexecutestep122.You couldproceedtoexecutestep21instead. 122 Usingacomputertocheck. Ifdevicesyouhaveareinsamemode,likebothdevicesareinSmode(Slave)orinMmode(Master),you couldneglectthisstepandproceedtostep21. SketchDiagram Equipment:

CPE5450 2pcs PC(Notebook) 1set POEPowerAdapter 2pcs EthernetCable 3pcs 1221ConnectCPE54501#toPCandpoweradapterasfollowing:

8 1222ConnectCPE54502#topoweradapterasfollowing:

1223SetrangebetweenCPE54501#andCPE54502#:3meters(around10foot)isrecommended, withoutobstaclebetween2CPEs:

9 1224Turnonallequipment,especiallycheckasbelowtoseeif2CPE5450areturningon,waitfor1minute Lightison Lightisnoton 1225Lightinformation Normallightsareasfollowings:

10 1226SetIPv4IPaddressorIPv6IPaddressofthePCto192.168.188.22(or192.168.188.11etc.), A.B C.LeftclickChangeNetworkAdapterSetting D.SetIPv4IPaddressorIPv6IPaddressofthePCto192.168.188.22(or192.168.188.11etc.), 11 1227Ping192.168.188.252t FollowingisWin7OS A. ClickWindowsicon B. Inputcommandping192.168.188.252t C. Clickenterto Ping192.168.188.252t 12 FollowingmessagesindicatesoneCPE5450device(Master)isworkingwell. 1228Ping192.168.188.253t A.ClickWindowsicon B.Inputcommandping192.168.188.253t C.Clickenterto Ping192.168.188.253t 13 TheCPEdevicesareworkingok. 2. Application 1, used in wireless video transmission with camera(s) 21Withonecamera BlockDiagram Equipment:

CPE5450 1pair(2PCS) Camera 1pcs DVR/NVR 1pcs EthernetCable 4pcs 211UseEthernetcabletoconnectWANportofCPE54501#toIPcamera 14 212UseEthernetcabletoconnectLANportofCPE54501#toPOEportofpoweradapter 213UseEthernetcabletoconnectLANportofCPE54502#toPOEportofpoweradapter 15 214UseEthernetcabletoconnectWANportofCPE54502#toNVR/DVR 215Turnonallequipment,especiallycheckasbelowtoseeif2CPE5450areturningon,waitfor1minute,thenyou couldseevideoofcameraonmonitor Lightison Lightisnoton 22Withmorethan2cameras Sketchdiagram 16 221UseEthernetcabletoconnectswitchtoIPcameras 222UseEthernetcabletoconnectswitchtoCPE54501#

223UseEthernetcabletoconnectLANportofCPE54502#toPOEportofpoweradapter 224UseEthernetcabletoconnectWANportofCPE54502#toNVR/DVR 225Turnonallequipment,waitfor1minute,thenyoucouldseevideoofcameraonmonitor 23Withyourrouter,toextendWiFisignal,CPE5450kitareusedasWiFirepeater 231Pleasekindlyrefertostep121(from1211to1217) 222Thedefaultpasswordforthedeviceis:66666666 223IPaddressforanotherCPE,M(Master)CPE5450is:192.168.188.252, andIPaddressforS(Slave)CPE5450is:192.168.188.253,soyoucouldlogintothedeviceviapagetochange SSIDandpasswordofthedevice. 17 Warning:

DonotpushResetbuttonofCPE4540,ifyoukeeppushingResetbuttonforlonger than15seconds,thedeviceswillnotmaintainconnectionbetween2CPEs,andthenthey needtobereconfigured.IfyoupushResetbuttononetime(notlongerthan5seconds), itmaycause3minutesto5minutestransmissionissue(notstable),butitwillresumeby itself. 3. Use metal hoop with screw fastening to fasten the device 3-1 3-2 3-3 3-4 18 FCC Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. FCC Radiation Exposure Statement This device complies with FCC radiation exposure limits set forth for an uncontrolled environment and it also complies with Part 15 of the FCC RF Rules. This equipment must be installed and operated in accordance with provided instructions and the antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. End-users and installers must be provided with antenna installation instructions and consider removing the no-collocation statement. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

(1) this device may not cause harmful interference, and

(2) this device must accept any interference received, including interference that may cause undesired operation. Caution!

Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 19 20

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09 IntPho

Internal Photos

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2.13 MiB

August 08 2019

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08 ExtPho

External Photos

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1.52 MiB

August 08 2019

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06 LabelSmpl-US r1

ID Label/Location Info

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180.12 KiB

August 08 2019

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10 TSup

Test Setup Photos

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1.16 MiB

August 08 2019

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14 TestRpt NII part1 r1

Test Report

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4.57 MiB

August 08 2019

FCC Radio Test Report FCC ID: 2AS3C-CPE5450 This report concerns: Original Grant Project No. Equipment Test Model Series Model Applicant Address

: 1903C003

: Wireless Bridge

: CPE5450

: CPE5450 Master, CPE5450 Slave, CPE5450CD, CPE5450AP, CPE5450FIT, CPE80R, CPE5300, 1200AP

: Qinwei Technology Co., LIMITED

: Room904, Block B, Dongpu Fuyuan, Shatoujiao, Yantian Districk, Shenzhen Date of Receipt Date of Test Issued Date Tested by

: Mar. 04, 2019

: Mar. 08, 2019 ~ Apr. 09, 2019

: Jul. 15, 2019

: BTL Inc. Testing Engineer Technical Manager Authorized Signatory

(Kai Xu)

(Steven Lu)

(Ethan Ma) B T L I N C . No.3, Jinshagang 1st Road, Shixia, Dalang Town, Dongguan, TEL: +86-769-8318-3000 FAX: +86-769-8319-6000 Guangdong, China. Report No.: BTL-FCCP-1-1903C003 Page 1 of 186 Report Version: R01 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 manufactures responsibility to ensure that additional production units of this model are manufactured with the identical electrical and mechanical components. BTL shall have no liability for any declarations, inferences or generalizations drawn by the client or others from BTL issued reports. NVLAP, NIST, A2LA, or any agency of the U.S. Government. The report must not be used by the client to claim product certification, approval, or endorsement by This report is the confidential property of the client. As a mutual protection to the clients, the public and BTLs laboratory quality assurance procedures are in compliance with the ISO/IEC 17025 requirements, BTL is not responsible for the sampling stage, so the results only apply to the sample as received. ourselves, the test report shall not be reproduced, except in full, without our written approval. and accredited by the conformity assessment authorities listed in this test report. The information, data and test plan are provided by manufacturer which may affect the validity of results, so it is manufacturers responsibility to ensure that the apparatus meets the essential requirements of applied standards and in all the possible configurations as representative of its intended use. 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. Please note that the measurement uncertainty is provided for informational purpose only and are not use in determining the Pass/Fail results. Report No.: BTL-FCCP-1-1903C003 Page 2 of 186 Report Version: R01 Table of Contents Page 3 . GENERAL INFORMATION 4 . AC POWER LINE CONDUCTED EMISSIONS TEST REPORT ISSUED HISTORY 1 . GENERAL SUMMARY 2 . SUMMARY OF TEST RESULTS 2.1 TEST FACILITY 2.2 MEASUREMENT UNCERTAINTY 6 7 8 9 9 10 10 3.1 GENERAL DESCRIPTION OF EUT 12 3.2 TEST MODES 14 3.3 PARAMETERS OF TEST SOFTWARE 3.4 DUTY CYCLE 15 3.5 BLOCK DIAGRAM SHOWING THE CONFIGURATION OF SYSTEM TESTED 17 17 3.6 SUPPORT UNITS 18 18 18 18 19 19 19 19 20 20 21 21 22 23 23 23 23 23 24 24 24 5.1 LIMIT 5.2 TEST PROCEDURE 5.3 DEVIATION FROM TEST STANDARD 5.4 TEST SETUP 5.5 EUT OPERATION CONDITIONS 5.6 EUT TEST CONDITIONS 5.7 TEST RESULTS - 9 KHZ to 30 MHZ 5.8 TEST RESULTS - 30 MHz TO 1000 MHz 5.9 TEST RESULTS - ABOVE 1000 MHz 4.1 LIMIT 4.2 TEST PROCEDURE 4.3 DEVIATION FROM TEST STANDARD 4.4 TEST SETUP 4.5 EUT OPERATION CONDITIONS 4.6 EUT TEST CONDITIONS 4.7 TEST RESULTS 6.1 LIMIT 6.2 TEST PROCEDURE 5 . RADIATED EMISSIONS TEST 6 . BANDWIDTH TEST Report No.: BTL-FCCP-1-1903C003 Page 3 of 186 Report Version: R01 Table of Contents Page 6.3 TEST PROCEDURE 6.4 TEST SETUP 6.5 EUT OPERATION CONDITIONS 6.6 EUT TEST CONDITIONS 6.7 TEST RESULTS 7 . MAXIMUM OUTPUT POWER TEST 7.1 LIMIT 7.2 TEST PROCEDURE 7.3 DEVIATION FROM STANDARD 7.4 TEST SETUP 7.5 EUT OPERATION CONDITIONS 7.6 EUT TEST CONDITIONS 7.7 TEST RESULTS 8 . POWER SPECTRAL DENSITY TEST 8.1 LIMIT 8.2 TEST PROCEDURE 8.3 DEVIATION FROM STANDARD 8.4 TEST SETUP 8.5 EUT OPERATION CONDITIONS 8.6 UT TEST CONDITIONS 8.7 TEST RESULTS 9 . FREQUENCY STABILITY MEASUREMENT 9.1 LIMIT 9.2 TEST PROCEDURE 9.3 DEVIATION FROM STANDARD 9.4 TEST SETUP 9.5 EUT OPERATION CONDITIONS 9.6 EUT TEST CONDITIONS 9.7 TEST RESULTS 10 . MEASUREMENT INSTRUMENTS LIST 11 . EUT TEST PHOTOS APPENDIX A - AC POWER LINE CONDUCTED EMISSIONS APPENDIX B - RADIATED EMISSION - 9 KHZ TO 30 MHZ 24 25 25 25 25 26 26 26 26 27 27 27 27 28 28 28 28 29 29 29 29 30 30 30 30 30 30 30 30 31 33 37 40 Report No.: BTL-FCCP-1-1903C003 Page 4 of 186 Report Version: R01 Table of Contents APPENDIX C - RADIATED EMISSION - 30 MHZ TO 1 GHZ APPENDIX D - RADIATED EMISSION - ABOVE 1000 MHZ APPENDIX E - BANDWIDTH APPENDIX F - MAXIMIUM OUTPUT POWER APPENDIX G - POWER SPECTRAL DENSITY APPENDIX H - FREQUENCY STABILITY Page 45 48 161 170 175 184 Report No.: BTL-FCCP-1-1903C003 Page 5 of 186 Report Version: R01 REPORT ISSUED HISTORY Report Version R00 R01 Description Original Issue. Updated the description of Section 7.1. Issued Date Jun. 03, 2019 Jul. 15, 2019 Report No.: BTL-FCCP-1-1903C003 Page 6 of 186 Report Version: R01 1. GENERAL SUMMARY

: CPE5450

: Wireless Bridge CPE80R, CPE5300, 1200AP Equipment Brand Name : QWnet Test Model Series Model : CPE5450 Master, CPE5450 Slave, CPE5450CD, CPE5450AP, CPE5450FIT, Applicant

: Qinwei Technology Co., LIMITED Manufacturer : Qinwei Technology Co., LIMITED Address Factory Address Date of Test Test Sample : Engineering Sample No.: D190302165 for conducted, D190302166 for

: Room904, Block B, Dongpu Fuyuan, Shatoujiao, Yantian Districk, Shenzhen

: Qinwei Technology Co., LIMITED

: Room904, Block B, Dongpu Fuyuan, Shatoujiao, Yantian Districk, Shenzhen

: Mar. 08, 2019 ~ Apr. 09, 2019 Standard(s) radiated.

: FCC Part15, Subpart E(15.407) ANSI C63.10-2013 FCC KDB 789033 D02 General UNII Test Procedures New Rules v02r01 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-1-1903C003) were obtained utilizing the test procedures, test instruments, test sites that has been accredited by the Authority of A2LA according to the ISO/IEC 17025 quality assessment standard and technical standard(s). Test results included in this report are only for the UNII-1 and UNII-3 part. Report No.: BTL-FCCP-1-1903C003 Page 7 of 186 Report Version: R01 2. SUMMARY OF TEST RESULTS Test procedures according to the technical standard(s):

Standard(s) Section 15.207 15.407(b) 15.407(b) 15.205(a) 15.209(a) 15.407(a) 15.407(e) 15.407(a) 15.407(a) 15.407(g) 15.203 15.407(c) FCC Part15, Subpart E(15.407) Test Item Test Result Judgement Remark AC Power Line Conducted Emissions APPENDIX A APPENDIX B APPENDIX C APPENDIX D APPENDIX E Spectrum Bandwidth Radiated Emissions PASS

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PASS

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PASS Maximum Output Power APPENDIX F PASS Power Spectral Density APPENDIX G PASS Frequency Stability APPENDIX H PASS Antenna Requirements Automatically Discontinue Transmission

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PASS PASS

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NOTE (2) Note:

(1) N/A denotes test is not applicable in this test report.

(2) During no any information transmission, the EUT can automatically discontinue transmission and become standby mode for power saving. the EUT can detect the controlling signal of ACK message transmitting from remote device and verify whether it shall resend or discontinue transmission.

(3) For UNII-1 this device was functioned as a Client device Access point device Report No.: BTL-FCCP-1-1903C003 Page 8 of 186 Report Version: R01 2.1 TEST FACILITY The test facilities used to collect the test data in this report is at the location of No.3,Jinshagang 1st Road, Shixia, Dalang Town, Dongguan, Guangdong, China. BTL's Test Firm Registration Number for FCC: 357015 BTL's Designation Number for FCC: CN1240 2.2 MEASUREMENT UNCERTAINTY ISO/IEC 17025 requires that an estimate of the measurement uncertainties associated with the emissions test results be included in the report. The measurement uncertainties given below are based on a 95% confidence level (based on a coverage factor (k=2)) The BTL measurement uncertainty as below table:

A. AC power line conducted emissions test:

Test Site Method Measurement Frequency Range DG-C02 CISPR 150 KHz ~ 30 MHz U, (dB) 2.32 B. Radiated emissions test:

Test Site Method Measurement Frequency DG-CB03 CISPR Range 9 kHz~30 MHz 9 kHz~30 MHz 30 MHz~200 MHz 30 MHz~200 MHz 200 MHz~1,000 MHz 200 MHz~1,000 MHz 1 GHz~18 GHz 1 GHz~18 GHz 18 GHz~40 GHz 18 GHz~40 GHz Ant. H / V U, (dB) 3.79 V 3.57 H V 3.82 3.60 H 3.86 V H 3.94 3.12 V 3.68 H 4.15 V H 4.14 Note: Unless specifically mentioned, the uncertainty of measurement has not been taken into account to declare the compliance or non-compliance to the specification. Report No.: BTL-FCCP-1-1903C003 Page 9 of 186 Report Version: R01 3. GENERAL INFORMATION 3.1 GENERAL DESCRIPTION OF EUT Equipment Brand Name Test Model Series Model Model Difference(s) Hardware Version Software Version Power Source Power Rating Operation Frequency Modulation Type Bit Rate of Transmitter Maximum Output Power for UNII-1 Maximum Output Power for UNII-3 Wireless Bridge QWnet CPE5450 CPE5450 Master, CPE5450 Slave, CPE5450CD, CPE5450AP, CPE5450FIT, CPE80R, CPE5300, 1200AP Only differ in model name. V5.0 V3.0 Supplied from POE Adapter. Model: GRT-POE15-240100 I/P: AC 100-240V 50/60Hz O/P: DC 24V UNII-1: 5150 MHz ~ 5250 MHz UNII-3: 5725 MHz ~ 5850 MHz OFDM Up to 450 Mbps IEEE 802.11a: 21.91 dBm (0.1552 W) IEEE 802.11n (HT20): 21.99 dBm (0.1581 W) IEEE 802.11n (HT40): 21.81 dBm (0.1517 W) IEEE 802.11ac (VHT20): 21.50 dBm (0.1413 W) IEEE 802.11ac (VHT40): 21.80 dBm (0.1514 W) IEEE 802.11ac (VHT80): 21.71 dBm (0.1483 W) IEEE 802.11a: 21.94 dBm (0.1563 W) IEEE 802.11n (HT20): 21.80 dBm (0.1514 W) IEEE 802.11n (HT40): 21.92 dBm (0.1556 W) IEEE 802.11ac (VHT20): 21.98 dBm (0.1578 W) IEEE 802.11ac (VHT40): 21.97 dBm (0.1574 W) IEEE 802.11ac (VHT80): 21.91 dBm (0.1552 W) 1000mA Note:

1. For a more detailed features description, please refer to the manufacturers specifications or the user's manual. Report No.: BTL-FCCP-1-1903C003 Page 10 of 186 Report Version: R01 2. Channel List:

IEEE 802.11a IEEE 802.11n (HT20) IEEE 802.11ac (VHT20) UNII-1 Frequency Channel 36 40 44 48

(MHz) 5180 5200 5220 5240 Channel 38 46 IEEE 802.11a IEEE 802.11n (HT20) IEEE 802.11ac (VHT20) UNII-3 Frequency Channel 149 153 157 161 165

(MHz) 5745 5765 5785 5805 5825 Channel 151 159 IEEE 802.11n (HT40) IEEE 802.11ac (VHT40) IEEE 802.11ac (VHT80) UNII-1 UNII-1 IEEE 802.11n (HT40) IEEE 802.11ac (VHT40) IEEE 802.11ac (VHT80) UNII-3 UNII-3 Frequency

(MHz) 5190 5230 Frequency

(MHz) 5755 5795 Channel 42 Channel 155 Frequency

(MHz) 5210 Frequency

(MHz) 5775 3. Antenna Specification:

N/A Model Name Manufacturer Ant. 1 Note:

Antenna Gain=14 dBi. So the UNII-1, UNII-3 output power limit is 30-14+6=22. The UNII-1 power spectral density limit is 17-14+6=9, the UNII-3 power spectral density limit is 30-14+6=22. Antenna Type Connector Internal N/A N/A 14 Gain(dBi) Report No.: BTL-FCCP-1-1903C003 Page 11 of 186 Report Version: R01 3.2 TEST MODES The test system was pre-tested based on the consideration of all possible combinations of EUT operation mode. Pretest Mode Mode 1 Mode 2 Mode 3 Mode 4 Mode 5 Mode 6 Mode 7 Mode 8 Mode 9 Mode 10 Mode 11 Mode 12 Mode 13 Description TX A Mode / CH36, CH40, CH48 (UNII-1) TX N (HT20) Mode / CH36, CH40, CH48 (UNII-1) TX N (HT40) Mode / CH38, CH46 (UNII-1) TX AC (VHT20) Mode / CH36, CH40, CH48 (UNII-1) TX AC (VHT40) Mode / CH38, CH46 (UNII-1) TX AC (VHT80) Mode / CH42 (UNII-1) TX A Mode / CH149,CH157,CH165 (UNII-3) TX N (HT20) Mode / CH149,CH157,CH165 (UNII-3) TX N (HT40) Mode / CH151,CH159 (UNII-3) TX AC (VHT20) Mode / CH149,CH157,CH165 (UNII-3) TX AC (VHT40) Mode / CH151,CH159 (UNII-3) TX AC (VHT80) Mode / CH155 (UNII-3) TX N (HT20) Mode / CH36 (UNII-1) Following mode(s) as (were) found to be the worst case(s) and selected for the final test. Final Test Mode Mode 13 AC power line conducted emissions test Description TX N (HT20) Mode / CH36 (UNII-1) Final Test Mode Mode 1 Mode 2 Mode 3 Mode 4 Mode 5 Mode 6 Mode 7 Mode 8 Mode 9 Mode 10 Mode 11 Mode 12 Radiated emissions test Description TX A Mode / CH36, CH40, CH48 (UNII-1) TX N (HT20) Mode / CH36, CH40, CH48 (UNII-1) TX N (HT40) Mode / CH38, CH46 (UNII-1) TX AC (VHT20) Mode / CH36, CH40, CH48 (UNII-1) TX AC (VHT40) Mode / CH38, CH46 (UNII-1) TX AC (VHT80) Mode / CH42 (UNII-1) TX A Mode / CH149,CH157,CH165 (UNII-3) TX N (HT20) Mode / CH149,CH157,CH165 (UNII-3) TX N (HT40) Mode / CH151,CH159 (UNII-3) TX AC (VHT20) Mode / CH149,CH157,CH165 (UNII-3) TX AC (VHT40) Mode / CH151,CH159 (UNII-3) TX AC (VHT80) Mode / CH155 (UNII-3) Report No.: BTL-FCCP-1-1903C003 Page 12 of 186 Report Version: R01 Test Mode Mode 1 Mode 2 Mode 3 Mode 4 Mode 5 Mode 6 Mode 7 Mode 8 Mode 9 Mode 10 Mode 11 Mode 12 Conducted test Description TX A Mode / CH36, CH40, CH48 (UNII-1) TX N (HT20) Mode / CH36, CH40, CH48 (UNII-1) TX N (HT40) Mode / CH38, CH46 (UNII-1) TX AC (VHT20) Mode / CH36, CH40, CH48 (UNII-1) TX AC (VHT40) Mode / CH38, CH46 (UNII-1) TX AC (VHT80) Mode / CH42 (UNII-1) TX A Mode / CH149,CH157,CH165 (UNII-3) TX N (HT20) Mode / CH149,CH157,CH165 (UNII-3) TX N (HT40) Mode / CH151,CH159 (UNII-3) TX AC (VHT20) Mode / CH149,CH157,CH165 (UNII-3) TX AC (VHT40) Mode / CH151,CH159 (UNII-3) TX AC (VHT80) Mode / CH155 (UNII-3) Note:

(1) For radiated emission below 1 GHz test, the IEEE 802.11ac80 is found to be the worst case and recorded.

(2) For radiated emission above 1 GHz test, 1GHz~26.5GHz and 26.5GHz~40GHz have been pre-tested and in this report only recorded the worst case. The remaining spurious points are all below the limit value of 20dB. Report No.: BTL-FCCP-1-1903C003 Page 13 of 186 Report Version: R01 3.3 PARAMETERS OF TEST SOFTWARE Test Software Test Frequency (MHz) IEEE 802.11a IEEE 802.11n (HT20) IEEE 802.11ac (VHT20) Test Frequency (MHz) IEEE 802.11n (HT40) IEEE 802.11ac (VHT40) Test Frequency (MHz) IEEE 802.11ac (VHT80) Test Software Test Frequency (MHz) IEEE 802.11a IEEE 802.11n (HT20) IEEE 802.11ac (VHT20) Test Frequency (MHz) IEEE 802.11n (HT40) IEEE 802.11ac (VHT40) Test Frequency (MHz) IEEE 802.11ac (VHT80) UNII-1 MP_TEST 5200 37 37 37 5230 37 38 UNII-3 MP_TEST 5785 36 36 36 5795 37 36 5180 38 39 38 5190 39 39 5210 38 5745 36 35 36 5755 37 37 5775 35 5240 34 34 34 5825 36 36 36 Report No.: BTL-FCCP-1-1903C003 Page 14 of 186 Report Version: R01 3.4 DUTY CYCLE If duty cycle is 98 %, duty factor is not required. If duty cycle is < 98 %, duty factor shall be considered. IEEE 802.11a IEEE 802.11n (HT20) Duty cycle = 1.395 ms / 1.455 ms = 95.88%

Duty Factor = 10 * log(1 / 95.88%) = 0.18 IEEE 802.11n (HT40) Duty cycle = 0.635 ms / 0.815 ms = 77.91%

Duty Factor = 10 * log(1 / 77.91%) = 1.08 Duty cycle = 1.304 ms / 1.392 ms = 93.68%

Duty Factor = 10 * log(1 / 93.68%) = 0.28 IEEE 802.11ac (VHT20) Duty cycle = 1.312 ms / 1.496 ms = 87.70%

Duty Factor = 10 * log(1 / 87.70%) = 0.57 Report No.: BTL-FCCP-1-1903C003 Page 15 of 186 Report Version: R01 IEEE 802.11ac (VHT40) IEEE 802.11ac (VHT80) Duty cycle = 0.295 ms / 0.425 ms = 69.41%

Duty Factor = 10 * log(1 / 69.41%) = 1.59 Duty cycle = 0.640 ms / 0.780 ms = 82.05%

Duty Factor = 10 * log(1 / 82.05%) = 0.86 NOTE:

For IEEE 802.11a, IEEE 802.11n (HT20) and IEEE 802.11ac (VHT20):

For radiated emissions frequency above 1 GHz, the resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 1 kHz (Duty cycle < 98%). For IEEE 802.11n (HT40) and IEEE 802.11ac (VHT40):

For radiated emissions frequency above 1 GHz, the resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 2 kHz (Duty cycle < 98%). For IEEE 802.11ac (VHT80):

For radiated emissions frequency above 1 GHz, the resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 3 kHz (Duty cycle < 98%). Report No.: BTL-FCCP-1-1903C003 Page 16 of 186 Report Version: R01 3.5 BLOCK DIAGRAM SHOWING THE CONFIGURATION OF SYSTEM TESTED 3.6 SUPPORT UNITS Item A Item 1 2 Equipment Notebook Mfr/Brand Dell Model/Type No. Inspiron 15-7559 Shielded Type Ferrite Core NO NO NO NO Length 1.5m 10m Series No. N/A Note RJ45 Cable RJ45 Cable Report No.: BTL-FCCP-1-1903C003 Page 17 of 186 Report Version: R01 4. AC POWER LINE CONDUCTED EMISSIONS TEST 4.1 LIMIT Frequency

(MHz) 0.15 - 0.5 0.5 - 5.0 5.0 - 30.0 Limit (dBV) Quasi-peak 66 to 56*

56 60 Average 56 to 46*

46 50 NOTE:

(1) The tighter limit applies at the band edges.

(2) The limit of " * " marked band means the limitation decreases linearly with the logarithm of the frequency in the range. The following table is the setting of the receiver Receiver Parameter Attenuation Start Frequency Stop Frequency IF Bandwidth 4.2 TEST PROCEDURE Setting 10 dB 0.15 MHz 30 MHz 9 KHz a. The EUT was placed 0.8 meters from the horizontal ground plane with EUT being connected to the power mains through a line impedance stabilization network (LISN). All other support equipment powered from additional LISN(s). The LISN provide 50 Ohm/ 50uH of coupling impedance for the measuring instrument. b. Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back c. I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the and forth in the center forming a bundle 30 to 40 cm long. cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m. d. LISN at least 80 cm from nearest part of EUT chassis. e. For the actual test configuration, please refer to the related Item -EUT Test Photos. 4.3 DEVIATION FROM TEST STANDARD No deviation Report No.: BTL-FCCP-1-1903C003 Page 18 of 186 Report Version: R01 4.4 TEST SETUP Vertical Reference Ground Plane 40 cm EUT Test Receiver LISN 80 cm Horizontal Reference Ground Plane 4.5 EUT OPERATION CONDITIONS 4.6 EUT TEST CONDITIONS The EUT was configured for testing in a typical fashion (as a customer would normally use it). The EUT has been programmed to continuously transmit during test. This operating condition was tested and used to collect the included data. The EUT was programmed to be in continuously transmitting/TX mode. Temperature: 25C Relative Humidity: 52% Test Voltage: AC 120V/60Hz 4.7 TEST RESULTS Please refer to the APPENDIX A. Report No.: BTL-FCCP-1-1903C003 Page 19 of 186 Report Version: R01 5. RADIATED EMISSIONS TEST 5.1 LIMIT In case the emission fall within the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed. LIMITS OF RADIATED EMISSIONS MEASUREMENT (9 kHz to 1000 MHz) Frequency

(MHz) 0.009-0.490 0.490-1.705 1.705-30.0 30-88 88-216 216-960 Above 960 Frequency

(MHz) 5150-5250 5725-5850 Field Strength

(microvolts/meter) 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500 Measurement Distance

(meters) 300 30 30 3 3 3 3 EIRP Limit

(dBm/MHz)

-27

-27 NOTE (2) 10 NOTE (2) 15.6 NOTE (2) 27 NOTE (2) Band edge at 3m (dBV/m) Harmonic at 1.5m (dBV/m) 68.3 68.3 105.3 110.9 122.3 74.3 (Note 3) 74.3 (Note 3) 111.3(Note 3) 116.9(Note 3) 128.3(Note 3) LIMITS OF UNWANTED EMISSION OUT OF THE RESTRICTED BANDS NOTE:

(1) The following formula is used to convert the equipment isotropic radiated power (eirp) to field strength:

V/m, where P is the eirp (Watts)

(2) According to FCC 16-24, all emissions shall be limited to a level of -27 dBm/MHz at 75 MHz or more above or below the band edge increasing linearly to 10 dBm/MHz at 25 MHz above or below the band edge, and from 25 MHz above or below the band edge increasing linearly to a level of 15.6 dBm/MHz at 5 MHz above or below the band edge, and from 5 MHz above or below the band edge increasing linearly to a level of 27 dBm/MHz at the band edge.

(3) 20log d limit/d measure=20log 3/1.5=6 dB. Report No.: BTL-FCCP-1-1903C003 Page 20 of 186 Report Version: R01 5.2 TEST PROCEDURE a. The measuring distance of 3 m shall be used for measurements. The EUT was placed on the top of a rotating table 0.8 meter above the ground at a 3 meter semi-anechoic chamber. The table was rotated 360 degrees to determine the position of the highest radiation.(below 1GHz) b. The measuring distance of 3 m or 1.5m shall be used for measurements. The EUT was placed on the top of a rotating table 1.5 meter above the ground at a 3 meter semi-anechoic chamber. The table was rotated 360 degrees to determine the position of the highest radiation.(above 1GHz) c. The height of the equipment or of the substitution antenna shall be 0.8m or 1.5m; the height of the test antenna shall vary between 1 m to 4 m. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights find the maximum reading (used Bore sight function). e. The receiver system was set to peak and average detect function and specified bandwidth with maximum hold mode when the test frequency is above 1 GHz. f. The initial step in collecting radiated emission data is a receiver peak detector mode pre-scanning the measurement frequency range. Significant peaks are then marked and then Quasi Peak detector mode re-measured. g. All readings are Peak unless otherwise stated QP in column of Note. Peak denotes that the Peak reading compliance with the QP Limits and then QP Mode measurement didnt perform.

(below 1 GHz) h. All readings are Peak Mode value unless otherwise stated AVG in column of Note. If the Peak Mode Measured value compliance with the Peak Limits and lower than AVG Limits, the EUT shall be deemed to meet both Peak & AVG Limits and then only Peak Mode was measured, but AVG Mode didnt perform. (above 1 GHz) i. For the actual test configuration, please refer to the related Item EUT Test Photos. 5.3 DEVIATION FROM TEST STANDARD No deviation Report No.: BTL-FCCP-1-1903C003 Page 21 of 186 Report Version: R01 5.4 TEST SETUP 9 kHz to 30 MHz 30 MHz to 1 GHz Absorbers EUT 0.8 m 3 m Ground Plane 1-4 m 1 m Receiver Amp. Report No.: BTL-FCCP-1-1903C003 Page 22 of 186 Report Version: R01 Harmonic (1 GHz to 18 GHz) Absorbers 3 m EUT 1.5 m Absorbers 0.3 m Ground Plane 1-4 m 1 m Receiver Amp. The EUT tested system was configured as the statements of 4.5 unless otherwise a special operating condition is specified in the follows during the testing. Temperature: 24C Relative Humidity: 68% Test Voltage: AC 120V/60Hz 5.5 EUT OPERATION CONDITIONS 5.6 EUT TEST CONDITIONS 5.7 TEST RESULTS - 9 KHZ to 30 MHZ Please refer to the APPENDIX B Remark:

(1) Distance extrapolation factor = 40 log (specific distance / test distance) (dB).

(2) Limit line = specific limits (dBuV) + distance extrapolation factor. 5.8 TEST RESULTS - 30 MHz TO 1000 MHz Please refer to the APPENDIX C. 5.9 TEST RESULTS - ABOVE 1000 MHz Please refer to the APPENDIX D. Remark:

(1) No limit: This is fundamental signal, the judgment is not applicable. For fundamental signal judgment was referred to Peak output test. Report No.: BTL-FCCP-1-1903C003 Page 23 of 186 Report Version: R01 6. BANDWIDTH TEST 6.1 LIMIT Frequency Range

(MHz) 5150-5250 5725-5850 Section 15.407(a) 15.407(e) FCC Part15, Subpart E (15.407) Limit Test Item 26 dB Bandwidth 6 dB Bandwidth

Minimum 500 kHz 6.2 TEST PROCEDURE the block diagram below b. Spectrum Setting:

For UNII-1:

Spectrum Parameter a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in Setting Auto

> 26 dB Bandwidth 300 kHz (Bandwidth 20 MHz) 1 MHz (Bandwidth 40 MHz and 80 MHz) 1 MHz (Bandwidth 20 MHz) 3 MHz (Bandwidth 40 MHz and 80 MHz) Peak Max Hold Auto Auto 6 dB Bandwidth 100 kHz 300 kHz Peak Max Hold Auto Spectrum Parameter Setting c. Measured the spectrum width with power higher than 26 dB below carrier Attenuation Span Frequency RBW VBW Detector Trace Sweep Time For UNII-3:

Attenuation Span Frequency RBW VBW Detector Trace Sweep Time 6.3 TEST PROCEDURE No deviation. Report No.: BTL-FCCP-1-1903C003 Page 24 of 186 Report Version: R01 6.4 TEST SETUP The EUT was programmed to be in continuously transmitting mode. Temperature: 23.5C Relative Humidity: 64.7% Test Voltage: AC 120V/60Hz 6.5 EUT OPERATION CONDITIONS 6.6 EUT TEST CONDITIONS 6.7 TEST RESULTS Please refer to the APPENDIX E. Report No.: BTL-FCCP-1-1903C003 Page 25 of 186 Report Version: R01 7. MAXIMUM OUTPUT POWER TEST 7.1 LIMIT Section FCC Part15, Subpart E (15.407) Limit Test Item 15.407(a) Maximum Output Power AP device: 1 Watt (30 dBm) Client device: 250 mW (24 dBm) 1 Watt (30dBm) Frequency Range

(MHz) 5150-5250 5725-5850 Note:

a. For fixed point-to-point access points operating in the band 5.15-5.25 GHz, the maximum conducted output power over the frequency band of operation shall not exceed 1 W. In addition, the maximum power spectral density shall not exceed 17 dBm in any 1 megahertz band. Fixed point-to-point U-NII devices may employ antennas with directional gain up to 23 dBi without any corresponding reduction in the maximum conducted output power or maximum power spectral density. For fixed point-to-point transmitters that employ a directional antenna gain greater than 23 dBi, a 1 dB reduction in maximum conducted output power and maximum power spectral density is required for each 1 dB of antenna gain in excess of 23 dBi. Fixed, point-to-point operations exclude the use of point-to-multipoint systems, omnidirectional applications, and multiple collocated transmitters transmitting the same information. The operator of the U-NII device, or if the equipment is professionally installed, the installer, is responsible for ensuring that systems employing high gain directional antennas are used exclusively for fixed, point-to-point operations. a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the 7.2 TEST PROCEDURE block diagram below. b. Used spectrum analyzer band power measurement function. c. Spectrum Setting Spectrum Parameter Attenuation Span Frequency RBW VBW Sweep points Detector Trace Sweep Time Setting Auto Encompass the entire emissions bandwidth

(EBW) of the signal

= 1 MHz. 3 MHz. 2 x span / RBW RMS Trace average at least 100 traces in power averaging(rms) mode. auto d. Test test was performed in accordance with method of FCC KDB 789033 D02 General UNII Test Procedures New Rules v02r01. 7.3 DEVIATION FROM STANDARD No deviation. Report No.: BTL-FCCP-1-1903C003 Page 26 of 186 Report Version: R01 7.4 TEST SETUP The EUT was programmed to be in continuously transmitting mode. Temperature: 23.5C Relative Humidity: 64.7% Test Voltage: AC 120V/60Hz 7.5 EUT OPERATION CONDITIONS 7.6 EUT TEST CONDITIONS 7.7 TEST RESULTS Please refer to the APPENDIX F. Report No.: BTL-FCCP-1-1903C003 Page 27 of 186 Report Version: R01 8. POWER SPECTRAL DENSITY TEST 8.1 LIMIT Section FCC Part15, Subpart E (15.407) Limit Test Item 15.407(a) Power Spectral Density AP device: 17 dBm/MHz Client device: 11 dBm/MHz 30 dBm/500 kHz Frequency Range

(MHz) 5150-5250 5725-5850 8.2 TEST PROCEDURE the block diagram below. b. Spectrum Setting a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in Spectrum Parameter Setting Attenuation Span Frequency RBW VBW Detector Trace average Sweep Time Note:

1. For UNII-3, according to KDB publication 789033 D02 General UNII Test Procedures New Rules v02r01, section II.F.5., it is acceptable to set RBW at 1 MHz and VBW at 3 MHz if the spectrum analyzer does not have 500 kHz RBW. Auto Encompass the entire emissions bandwidth

(EBW) of the signal

= 1 MHz. 3 MHz. RMS 100 trace Auto 2. The value measured with RBW=1 MHz is to be added with 10log(500 kHz/1 MHz) which is

-3 dB. For example, if the measured value is +10dBm using RBW=1 MHz (that is +10 dBm/MHz), then the converted value will be +7dBm/500kHz. 8.3 DEVIATION FROM STANDARD No deviation. Report No.: BTL-FCCP-1-1903C003 Page 28 of 186 Report Version: R01 8.4 TEST SETUP 8.5 EUT OPERATION CONDITIONS 8.6 UT TEST CONDITIONS The EUT was programmed to be in continuously transmitting mode. Temperature: 23.5C Relative Humidity: 64.7% Test Voltage: AC 120V/60Hz 8.7 TEST RESULTS Please refer to the APPENDIX G. Report No.: BTL-FCCP-1-1903C003 Page 29 of 186 Report Version: R01 9. FREQUENCY STABILITY MEASUREMENT 9.1 LIMIT Section FCC Part15, Subpart E (15.407) Limit Test Item 15.407(g) Frequency Stability Specified in the users manual Frequency Range

(MHz) 5150-5250 5725-5850 a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in 9.2 TEST PROCEDURE the block diagram below. b. Spectrum Setting:

Spectrum Parameter Attenuation Span Frequency RBW VBW Sweep Time Setting Auto Entire absence of modulation emissions bandwidth 10 kHz 10 kHz Auto c. The test extreme voltage is to change the primary supply voltage from 85 to 115 percent of the d. User manual temperature is 0C~50C. nominal value. 9.3 DEVIATION FROM STANDARD No deviation. 9.4 TEST SETUP The EUT was programmed to be in continuously transmitting mode. 9.5 EUT OPERATION CONDITIONS 9.6 EUT TEST CONDITIONS 9.7 TEST RESULTS Please refer to the APPENDIX H. Temperature: 23.5C Relative Humidity: 64.7% Test Voltage: AC 120V/60Hz Report No.: BTL-FCCP-1-1903C003 Page 30 of 186 Report Version: R01 10. MEASUREMENT INSTRUMENTS LIST Item Kind of Equipment Manufacturer AC Power Line Conducted Emissions Item Kind of Equipment Manufacturer Radiated Emissions - 9 kHz to 30 MHz LISN 1 EMI Test Receiver 2 3 4 50ohm Teminator Artificial-Mains Network TRANSIENT LIMITER Measurement Software Cable Cable Loop Antenna 1 2 3 EMI Test Receiver 4 Measurement Software Antenna Amplifier Receiver Cable Controller Controller Measurement Software SCHWARZBEC R&S EMCO SHX K EM Farad N/A EM N/A R&S Farad HP Agilent emci CT MF Farad Type No. ESCI 3816/2 TF5-3 NSLK 8127 EM-7600 EZ-EMC Ver.NB-03A1-01 RG223 Type No. EM-6876-1 RG 213/U ESCI EZ-EMC Ver.NB-03A1-01 Serial No. 100382 52765 15041305 8127685 772 N/A 12m Serial No. 230 C-102 100895 Type No. VULB9160 8447D N9038A LMR-400(30MHz-

1GHz)(8m+5m) SC100 MF-7802 EZ-EMC Ver.NB-03A1-01 Serial No. 9160-3232 2944A09673 MY52130039 N/A N/A MF780208416 N/A Item Kind of Equipment Manufacturer Schwarzbeck Radiated Emissions - 30 MHz to 1 GHz N/A N/A Calibrated until Mar. 10, 2020 Mar. 10, 2020 Mar. 10, 2020 Mar. 10, 2020 Mar. 10, 2020 N/A Mar. 12, 2020 Calibrated until Jan. 15, 2020 Jun. 01, 2019 Mar. 10, 2020 Calibrated until Mar. 09, 2020 Aug. 11, 2019 Aug. 11, 2019 May 25, 2019 N/A N/A N/A Calibrated until Mar. 09, 2020 Jun. 30, 2019 Mar. 10, 2020 Item Kind of Equipment Manufacturer Type No. Serial No. Radiated Emissions - Above 1 GHz ETS 3115 75789 Schwarzbeck BBHA 9170 9170319 8449B 3008A02333 Double Ridged 1 Guide Antenna 2 Broad-Band Horn 3 Antenna Amplifier Microwave Preamplifier With Adaptor Receiver Controller Controller Cable Measurement Software Agilent EMC INSTRUMENT Agilent CT MF mitron Farad EMC2654045 980039 & HA01 Mar. 10, 2020 N9038A SC100 MF-7802 B10-01-01-12M EZ-EMC Ver.NB-03A1-01 MY52130039 Aug. 11, 2019 N/A MF780208416 18072744 N/A N/A Jul. 30, 2019 N/A N/A Report No.: BTL-FCCP-1-1903C003 Page 31 of 186 Report Version: R01 5 6 7 1 2 3 4 5 6 7 4 5 6 7 8 9 Item Kind of Equipment Manufacturer 1 Spectrum Analyzer R&S Bandwidth Type No. FSP40 Item Kind of Equipment Manufacturer 1 Spectrum Analyzer R&S Type No. FSP40 Maximum Output Power Item Kind of Equipment Manufacturer 1 Spectrum Analyzer R&S Type No. FSP40 Power Spectral Density Frequency Stability Item Kind of Equipment Manufacturer 1 Spectrum Analyzer 2 Precision Oven Tester R&S Bell Type No. FSP40 BTH-50C Serial No. 100185 Calibrated until Aug. 11, 2019 Serial No. 100185 Calibrated until Aug. 11, 2019 Serial No. 100185 Calibrated until Aug. 11, 2019 Serial No. 100185 20170306001 Calibrated until Aug. 11, 2019 Mar. 10, 2020 Remark: N/A denotes no model name, serial no. or calibration specified. All calibration period of equipment list is one year. Report No.: BTL-FCCP-1-1903C003 Page 32 of 186 Report Version: R01 11. EUT TEST PHOTOS AC Power Line Conducted Emissions Test Photos Report No.: BTL-FCCP-1-1903C003 Page 33 of 186 Report Version: R01 Radiated Emissions Test Photos 9 kHz to 30 MHz Report No.: BTL-FCCP-1-1903C003 Page 34 of 186 Report Version: R01 Radiated Emissions Test Photos 30 MHz to 1 GHz Report No.: BTL-FCCP-1-1903C003 Page 35 of 186 Report Version: R01 Radiated Emissions Test Photos Above 1 GHz Report No.: BTL-FCCP-1-1903C003 Page 36 of 186 Report Version: R01 APPENDIX A - AC POWER LINE CONDUCTED EMISSIONS Report No.: BTL-FCCP-1-1903C003 Page 37 of 186 Report Version: R01 Test Mode:

TX N (HT20) MODE CHANNEL 36 Line REMARKS: