NYX2600 Nyx2600 Ac Dual Band Ac Wireless Router by NEXXT SOLUTIONS

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1 2	User Manual	Users Manual	pdf	496.69 KiB	January 18 2019
1 2	Internal photos	Internal Photos	pdf	394.34 KiB	January 18 2019
1 2	External photos	External Photos	pdf	624.14 KiB	January 18 2019
1 2	label and label location	ID Label/Location Info	pdf	126.16 KiB	January 18 2019
1 2	Block Diagram	Block Diagram	pdf		January 18 2019	confidential
1 2	Declaration Letter of Software Security Requirements	Operational Description	pdf		January 18 2019	confidential
1 2	Declaration concerning Antenna Specification	Operational Description	pdf		January 18 2019	confidential
1 2	FCC Confidentiality request letter	Cover Letter(s)	pdf	52.93 KiB	January 18 2019
1 2	Operation Description	Operational Description	pdf		January 18 2019	confidential
1 2	Power of Attorney Letter	Cover Letter(s)	pdf	48.82 KiB	January 18 2019
1 2	RF exposure info	RF Exposure Info	pdf	101.88 KiB	January 18 2019
1 2	Schematic	Schematics	pdf		January 18 2019	confidential
1 2	Test Report NII Part1	Test Report	pdf	5.60 MiB	January 18 2019
1 2	Test Report NII Part2	Test Report	pdf	5.73 MiB	January 18 2019
1 2	Test setup photos	Test Setup Photos	pdf	73.90 KiB	January 18 2019
1 2	UNII Device Declaration Letter	Cover Letter(s)	pdf	100.19 KiB	January 18 2019
1 2	Declaration of Disable WLAN Channel 12 and 13	Cover Letter(s)	pdf	124.59 KiB	January 18 2019
1 2	Test report-DTS Part1	Test Report	pdf	4.64 MiB	January 18 2019
1 2	Test report-DTS Part2	Test Report	pdf	4.86 MiB	January 18 2019

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User Manual

Users Manual

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Internal photos

Internal Photos

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External photos

External Photos

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label and label location

ID Label/Location Info

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126.16 KiB

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FCC Confidentiality request letter

Cover Letter(s)

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52.93 KiB

January 18 2019

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Power of Attorney Letter

Cover Letter(s)

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48.82 KiB

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RF exposure info

RF Exposure Info

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101.88 KiB

January 18 2019

RF Exposure evaluation Exposure category: General population/uncontrolled environment EUT Type: Production Unit Device Type: Mobile Device Refer Standard: KDB 447498 D01 General RF Exposure Guidance v06 FCC Part 2 2.1091 FCC ID: X4YNYX2600 1. Applicable Standard According to 1.1307(b)(1), systems operating under the provisions of this section shall be operated in a manner that ensures that the public is not exposed to radio frequency energy level in excess of the Commissions guidelines. According to 1.1310 and 2.1093 RF exposure requirement KDB447498 v06: Mobile and Portable Devices RF Exposure Procedures and Equipment Authorization Policies. 2. Requirement According to KDB447498 D01 General RF Exposure Guidance v06 Section 4.3.1 Standalone SAR test exclusion considerations: Unless specifically required by the published RF exposure KDB procedures, standalone 1-g head or body and 10-g extremity SAR evaluation for general population exposure conditions, by measurement or numerical simulation, is not required when the corresponding SAR Test Exclusion Threshold condition, listed below, is satisfied. These test exclusion conditions are based on source-based time-averaged maximum conducted output power of the RF channel requiring evaluation, adjusted for tune-up tolerance, and the minimum test separation distance required for the exposure conditions.22 The minimum test separation distance is determined by the smallest distance from the antenna and radiating structures or outer surface of the device, according to the host form factor, exposure conditions and platform requirements, to any part of the body or extremity of a user or bystander (see 5) of section 4.1). To qualify for SAR test exclusion, the test separation distances applied must be fully explained and justified by the operating configurations and exposure conditions of the transmitter and applicable host platform requirements, typically in the SAR measurement or SAR analysis report, according to the required published RF exposure KDB procedures. When no other RF exposure testing or reporting is required, a statement of justification and compliance must be included in the equipment approval, in lieu of the SAR report, to qualify for the SAR test exclusion. When required, the device specific conditions described in the other published RF exposure KDB procedures must be satisfied before applying these SAR test exclusion provisions; for example, handheld PTT two-way radios, handsets, laptops & tablets etc.23

[(max. power of channel, including tune-up tolerance, mW)/ (min. test separation distance, mm)] [f (GHz)]

3.0 for 1-g SAR and 7.5 for 10-g extremity SAR, where:

f (GHz) is the RF channel transmit frequency in GHz Power and distance are rounded to the nearest mW and mm before calculation The result is rounded to one decimal place for comparison 3.0 and 7.5 are referred to as the numeric thresholds in the step 2 below The test exclusions are applicable only when the minimum test separation distance is 50 mm and for transmission frequencies between 100 MHz and 6 GHz. When the minimum test separation distance is < 5 mm, a distance of 5 mm according to 5) in section 4.1 is applied to determine SAR test exclusion. 3. Limit Limits for Maximum Permissible Exposure (MPE)/Controlled Exposure Power Density Electric Field Strength(V/m) Magnetic Field Strength(A/m)

(mW/cm) Limits for Occupational/Controlled Exposure

(100) *

(900/f2)*

614 1842/f 61.4 1.63 4.89/f 0.163 Limits for Maximum Permissible Exposure (MPE)/Uncontrolled Exposure Power Density Electric Field Strength(V/m) Magnetic Field Strength(A/m)

(mW/cm) Limits for Occupational/Controlled Exposure

(100) *

(180/f2)*

1.63 2.19/f 0.073 614 824/f 27.5 Frequency Range(MHz) 0.3 3.0 3.0 30 30 300 300 1500 1500 100,000 Frequency Range(MHz) 0.3 3.0 3.0 30 30 300 300 1500 1500 100,000 1.0 f/300 5 0.2 f/1500 1.0

/

Averaging Time

(minute) 6 6 6 6 6 Averaging Time

(minute) 30 30 30 30 30 F=frequency in MHz

*=Plane-wave equivalent power density 4. MPE Calculation Method Predication of MPE limit at a given distance Equation from page 18 of OET Bulletin 65, Edition 97-01 S=PG/4R Where: S=power density P=power input to antenna G=power gain of the antenna in the direction of interest relative to an isotropic radiator R=distance to the center of radiation of the antenna As declared by the Applicant, the EUT transmits with the maximum soure-baed Duty Cycle of 100%-see the User manual, and the EUT is a wireless device used in a mobile application, at least 20 cm from any body part of the user or nearby persons; from the maximum EUT RF output power, the minimum mobile separation distance, r =20cm, as well as the gain of the used antenna is 1.06dBi for WLAN, and the power drift from Turn-up Procedure provide by manufacturer as following states, the RF power density can be obtained.. 5. Antenna Information use antennas certificated as follows provided by manufacturer;

Internal Identification Antenna A Antenna B Antenna C Antenna D Antenna Identification in Internal photos 5G Wifi Chain A 5G Wifi Chain B 5G Wifi Chain A 5G Wifi Chain B Antenna type and antenna number External Antenna External Antenna External Antenna External Antenna Operate frequency band 5.18GHz 5.24 GHz 5.18GHz 5.24 GHz 5.18GHz 5.24 GHz 5.18GHz 5.24 GHz Maximum antenna gain 5.0 dBi 5.0 dBi 5.0 dBi 5.0 dBi 6. Evaluation Results for Standalone 6.1 Standalone MPE As declared by the Applicant, the EUT is a wireless device used in a fix application, at least 20 cm from any body part of the user or nearby persons; from the maximum EUT RF output power, the minimum separation distance, r =20cm, as well as the gain of the used antenna refer to antenna information, the RF power density can be obtained. ANT A Modulation Type Target power W/

tolerance

(dBm) Max tune up power toleranc e(dBm) Max Output power to antenna

(mW) 802.11a 131.0 802.11ac20 131.0 802.11ac40 131.0 802.11ac80 131.0 802.11n40 131.0 14 14 14 14 14 25.119 25.119 25.119 25.119 25.119 Antenna Gain

(Numeric) 5 5 5 5 5 ANT B Modulation Type 802.11a Target power W/

tolerance

(dBm) 131.0 802.11ac20 131.0 802.11ac40 131.0 802.11ac80 131.0 802.11n40 131.0 Max tune up power tolerance

(dBm) 14 14 14 14 14 Max Output power to antenna

(mW) 25.119 25.119 25.119 25.119 25.119 Antenna Gain

(Numeric) 5 5 5 5 5 Power Density at R=20cm

(mW/cm2) Limit

(mW/cm2) Result 0.01580 0.01580 0.01580 0.01580 0.01580 1.0 1.0 1.0 1.0 1.0 Pass Pass Pass Pass Pass Power Density at R=20cm

(mW/cm2) Limit

(mW/cm2) Result 0.01580 0.01580 0.01580 0.01580 0.01580 1.0 1.0 1.0 1.0 1.0 Pass Pass Pass Pass Pass ANT C Modulation Type 802.11a Target power W/

tolerance

(dBm) 131.0 802.11ac20 131.0 802.11ac40 131.0 802.11ac80 131.0 802.11n40 131.0 Max tune up power tolerance

(dBm) 14 14 14 14 14 Max Output power to antenna

(mW) 25.119 25.119 25.119 25.119 25.119 Antenna Gain

(Numeric) 5 5 5 5 5 ANT D Modulation Type 802.11a Target power W/

tolerance

(dBm) 131.0 802.11ac20 131.0 802.11ac40 131.0 802.11ac80 131.0 802.11n40 131.0 Max tune up power tolerance

(dBm) 14 14 14 14 14 Max Output power to antenna

(mW) 25.119 25.119 25.119 25.119 25.119 Antenna Gain

(Numeric) 5 5 5 5 5 Power Density at R=20cm

(mW/cm2) Limit

(mW/cm2) Result 0.01580 0.01580 0.01580 0.01580 0.01580 1.0 1.0 1.0 1.0 1.0 Pass Pass Pass Pass Pass Power Density at R=20cm

(mW/cm2) Limit

(mW/cm2) Result 0.01580 0.01580 0.01580 0.01580 0.01580 1.0 1.0 1.0 1.0 1.0 Pass Pass Pass Pass Pass 6.2 Summary simultaneous transmission results ANT A+ANT B+ANT C+ANT D Modulation Type 802.11a 802.11ac20 802.11ac40 802.11ac80 802.11n40 Power Density at R=20cm

(mW/cm2) ANT A 0.01580 0.01580 0.01580 0.01580 0.01580 Power Density at R=20cm

(mW/cm2) ANT B 0.01580 0.01580 0.01580 0.01580 0.01580 Power Density at R=20cm

(mW/cm2) ANT C 0.01580 0.01580 0.01580 0.01580 0.01580 Power Density at R=20cm

(mW/cm2) ANT D 0.01580 0.01580 0.01580 0.01580 0.01580 MPE ratios 0.0632 0.0632 0.0632 0.0632 0.0632 Limit Result 1 1 1 1 1 Pass Pass Pass Pass Pass 7. Conclusion The measurement results comply with the FCC Limit per 47 CFR 2.1091 for the uncontrolled RF Exposure of mobile device.

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Test Report NII Part1

Test Report

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January 18 2019

Page 1 of 76 Report No.: UNIA2018121702FR-02 FCC RADIO TEST REPORT FCC ID: X4YNYX2600 Product Nyx2600-AC Dual-Band AC Wireless Router Trade Name NEXXT Model Name ARLGL174U1 Serial Model N/A Report No. UNIA2018121702-1FR-02 Prepared for NEXXT SOLUTIONS 3505 N.W. 107th AVE. MIAMI FLORIDA 33178 U.S.A Prepared by Shenzhen United Testing Technology Co., Ltd. 2F, Annex Bldg, Jiahuangyuan Tech Park, #365 Baotian 1 Rd, Tiegang Community, Xixiang Str, Bao'an District, Shenzhen, China Page 2 of 76 Report No.: UNIA2018121702FR-02 TEST RESULT CERTIFICATION Applicants name ................. : NEXXT SOLUTIONS Address ................................. : 3505 N.W. 107th AVE. MIAMI FLORIDA 33178 U.S.A Manufacture's Name ............ : YICHEN (Shenzhen) Technology Co.,LTD Address ................................. :

6th Building, Yasen Industrial Park, Chengxin Road 8, Baolong Industrial Estate, Longgang District, Shenzhen, China. Product description Product name............................ : Nyx2600-AC Dual-Band AC Wireless Router Trade Mark ............................ : NEXXT Model and/or type reference : ARLGL174U1 Standards ............................. :

FCC Rules and Regulations Part 15 Subpart E Section 15.407 ANSI C63.10: 2013 This device described above has been tested by Shenzhen United Testing Technology Co., Ltd., and the test results show that the equipment under test (EUT) is in compliance with the FCC requirements. And it is applicable only to the tested sample identified in the report. This report shall not be reproduced except in full, without the written approval of UNI, this document may be altered or revised by Shenzhen United Testing Technology Co., Ltd., personnel only, and shall be noted in the revision of the document. Date of Test ........................................... :

Date (s) of performance of tests ............. : Dec. 2, 2018 ~ Dec. 20, 2018 Date of Issue .......................................... : Dec. 21, 2018 Test Result.............................................. : Pass Prepared by:

Kahn yang/Editor Reviewer:

Sherwin Qian/Supervisor Approved & Authorized Signer:

Liuze/Manager Page 3 of 76 Report No.: UNIA2018121702FR-02 Table of Contents Page 1 . TEST SUMMARY 2 . GENERAL INFORMATION 2.1 GENERAL DESCRIPTION OF EUT 2.2 Carrier Frequency of Channels 2.3 Operation of EUT during testing 2.4 DESCRIPTION OF TEST SETUP 2.5 MEASUREMENT INSTRUMENTS LIST 3. CONDUCTED EMISSIONS TEST 3.1 Conducted Power Line Emission Limit 3.2 Test Setup 3.3 Test Procedure 3.4 Test Result 4. RADIATED EMISSION TEST 4.1 Radiation Limit 4.2 Test Setup 4.3 Test Procedure 4.4 Test Result 5. BAND EDGE COMPLIANCE TEST 5.1 Limits 5.2 Test Procedure 5.3 Test Result 6. OCCUPIED BANDWIDTH MEASUREMENT 6.1 Test Limit 6.2 Test Procedure 6.3 Test Result 7. POWER SPECTRAL DENSITY TEST 7.1 Test Limit 7.2 Test Procedure 7.3 Test Result 8. MAXIMUM CONDUCTED OUTPUT POWER TEST 8.1 Test Limit 8.2 Test Procedure 8.4 Test Result 5 6 6 7 7 7 8 9 9 9 9 9 12 12 12 13 13 27 27 27 27 33 33 33 33 52 52 52 52 63 63 63 63 Page 4 of 76 Report No.: UNIA2018121702FR-02 Table of Contents Page 9. DUTY CYCLE TEST SIGNAL 9.2 Test Procedure 9.3 Test Setup 9.4 Test Result 10. FREQUENCY STABILITY 10.1 Test Limit 10.2 Test Procedure 10.3 Test Result 11. ANTENNA REQUIREMENT 12. PHOTOGRAPH OF TEST 65 65 65 65 74 74 74 74 75 76 Page 5 of 76 Report No.: UNIA2018121702FR-02 1. TEST SUMMARY 1.1 TEST PROCEDURES AND RESULTS DESCRIPTION OF TEST CONDUCTED EMISSIONS TEST RADIATED EMISSION TEST BAND EDGE OCCUPIED BANDWIDTH MEASUREMENT POWER SPECTRAL DENSITY PEAK OUTPUT POWER TRANSMISSION CASE OF ABSENCE OF INFORMATION FREQUENCY STABILITY ANTENNA REQUIREMENT 1.2 TEST FACILITY RESULT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT Test Firm Address

: Shenzhen United Testing Technology Co., Ltd.

: 2F, Annex Bldg, Jiahuangyuan Tech Park, #365 Baotian 1 Rd, Tiegang Community, Xixiang Str, Bao'an District, Shenzhen, China The testing quality ability of our laboratory meet with "Quality Law of People's Republic of China" Clause 19.The testing quality system of our laboratory meets with ISO/IEC-17025 requirements, which is approved by CNAS. This approval result is accepted by MRA of APLAC. Our test facility is recognized, certified, or accredited by the following organizations:

CNAS-LAB Code: L6494 The EMC Laboratory has been assessed and in compliance with CNAS-CL01 accreditation criteria for testing Laboratories (identical to ISO/IEC 17025:2017 General Requirements) for the Competence of testing Laboratories. Designation Number: CN1227 Test Firm Registration Number: 674885 The EMC Laboratory has been registered and fully described in a report filed with the (FCC) Federal Communications commission. The acceptance letter from the FCC is maintained in our files. 1.3 MEASUREMENT UNCERTAINTY Measurement Uncertainty

= 2.23dB, k=2 Conducted Emission Expanded Uncertainty

= 3.08dB, k=2 Radiated emission expanded uncertainty(9kHz-30MHz) Radiated emission expanded uncertainty(30MHz-1000MHz) = 4.42dB, k=2

= 4.06dB, k=2 Radiated emission expanded uncertainty(Above 1GHz) Page 6 of 76 Report No.: UNIA2018121702FR-02 2. GENERAL INFORMATION 2.1 GENERAL DESCRIPTION OF EUT Equipment Trade Mark Model Name Serial No. Model Difference FCC ID Antenna Type Antenna Gain Directional Gain Frequency Range Number of Channels Modulation Type Battery Power Source Adapter Model Nyx2600-AC Dual-Band AC Wireless Router NEXXT ARLGL174U1 N/A N/A X4YNYX2600 External Antenna 5.0dBi 5.0+10*log(4)=11.02dBi 802.11a:5180-5240MHz;

802.11ac 20:5180-5240MHz;

802.11ac 40:5190-5230MHz;

802.11ac 80:5210MHz;

802.11n40: 5190~5230MHz 802.11a/ac20: 4CH;

802.11ac40:2CH;

802.11ac80:1CH;

802.11n40:2CH;

OFDM, DBPSK, DAPSK, DAPSK N/A DC 12V from adapter with AC 120(240)V/60Hz Manufacturer: Shenzhen Gongjin Electronics Co., Ltd. Model:S24B72-120A200-OK INPUT:AC 100-240V, 50/60Hz, 0.8A OUTPUT:DC 12V/2A Page 7 of 76 Report No.: UNIA2018121702FR-02 2.2 Carrier Frequency of Channels 802.11a/ac 20 Channel 36 48 157 802.11n40/ac40 Channel 38 151 802.11ac 80 Channel 42 Frequency

(MHz) 5180 5240 5785 Frequency

(MHz) 5190 5755 Frequency

(MHz) 5210 2.3 Operation of EUT during testing Channel 40 149 161 Channel 46 159 Channel 155 Frequency

(MHz) 5200 5745 5805 Frequency

(MHz) 5230 5795 Frequency

(MHz) 5775 Channel 44 153 165 Channel Channel Frequency

(MHz) 5220 5765 5825 Frequency

(MHz) Frequency

(MHz) Operating Mode The mode is used: Transmitting mode for 802.11a(5180MHz/5200MHz/5240MHz), 802.11ac 20M(5180MHz/5200MHz/5240MHz) 802.11ac 40M(5190MHz/5230MHz); 802.11ac 80M(5210MHz) 802.11n 40M(5190MHz/5200MHz/5230MHz) Test SW Version: MT7615 QA 0.0.1.85 2.4 DESCRIPTION OF TEST SETUP Operation of EUT during Conducted testing:

AC Power AC Power Adapter EUT Adapter EUT Operation of EUT during Radiation and Above1GHz Radiation testing:

Table for auxiliary equipment:

Equipment Description Manufacturer N/A N/A Model N/A Calibration Due Date N/A Page 8 of 76 Report No.: UNIA2018121702FR-02 2.5 MEASUREMENT INSTRUMENTS LIST Item Equipment Manufacturer Model No. Serial No. Calibrated until 1 2 3 4 1 2 3 4 5 6 AMN AMN EMI TEST RECEIVER AAN Horn Antenna BicoNILog Antenna PREAMP PREAMP EMI TEST RECEIVER VECTOR Signal Generator CONDUCTED EMISSIONS TEST Schwarzbeck NNLK8121 ETS Rohde&Schwarz TESEQ 3810/2 ESCI T8-Cat6 RADIATED EMISSION TEST Sunol Sunol HP HP Rohde&Schwarz DRH-118 JB1 Antenna 8449B 8447D ESR3 Rohde&Schwarz SMU200A Signal Generator 7 8 MXA Signal Analyzer 9 MXA Signal Analyzer 10 ANT Tower&Turn table Controller Agilent Agilent Agilent Champro Taihe Maorui Taihe Maorui 11 Anechoic Chamber 12 13 14 15 Shielding Room RF Power sensor RF Power sensor RF power divider Wideband radio communication tester Rohde&Schwarz Schwarzbeck Biconical antenna Biconical antenna Schwarzbeck Broadband Hybrid DARE DARE Anritsu 16 17 18 19 Schwarzbeck Antennas E4421B N9020A N9020A EM 1000 9m*6m*6m 6.4m*4m*3m RPR3006W RPR3006W K241B CMW500 VHA 9103 VHA 9103 8121370 00020199 101210 38888 A101415 A090215 3008A00160 2944A07999 101891 101521 MY4335105 MY50510140 MY51110104 60764 966A0001 643A0001 15I00041SNO88 15I00041SNO89 992289 154987 91032360 91032361 2019.9.9 2019.9.9 2019.9.9 2019.9.9 2019.9.29 2019.9.29 2019.9.9 2019.9.9 2019.9.9 2019.9.28 2019.9.28 2019.9.28 2019.9.9 2019.9.28 2019.9.9 2019.9.9 2019.3.14 2019.3.14 2019.9.28 2019.9.28 2019.9.8 2019.9.8 2019.9.8 VULB9163 VULB9163#958 Horn Antenna 20 21 Active Receive Loop 22 Horn Antenna Antenna 23 Microwave Broadband Preamplifier Power Meter 24 Active Loop Antenna 25 26 27 Frequency Meter DC Power Source Schwarzbeck BBHA9120D 9120D-1680 2019.1.12 Schwarzbeck FMZB 1919B 00023 2019.9.8 Schwarzbeck BBHA 9170 BBHA9170651 2019.03.14 Schwarzbeck BBV 9721 100472 2019.9.8 Com-Power KEYSIGHT VICTOR HYELEC AL-130R N1911A VC2000 HY5020E 10160009 MY50520168 997406086 055161818 2019.05.10 2019.05.10 2019.05.10 2019.05.10 Test software 1 E3 Audix 6.101223a N/A N/A Page 9 of 76 Report No.: UNIA2018121702FR-02 3. CONDUCTED EMISSIONS TEST Frequency 3.1 Conducted Power Line Emission Limit For unintentional device, according to 15.107(a) Line Conducted Emission Limits is as following 0.15~0.50 0.50~5.00 5.00~30.0 Maximum RF Line Voltage(dBV) Ave. 66 60 60 Q.P. 79 73 73 Ave. 56~46*

Q.P. 66~56*

CLASS B CLASS A 46 50 56 60

(MHz)

* Decreasing linearly with the logarithm of the frequency For intentional device, according to 15.207(a) Line Conducted Emission Limit is same as above table. 3.2 Test Setup 3.3 Test Procedure 1, The equipment was set up as per the test configuration to simulate typical actual usage per the users manual. A wooden table with a height of 0.8 meters is used and is placed on the ground plane as per ANSI C63.10. 2, Support equipment, if needed, was placed as per ANSI C63.10. 3, All I/O cables were positioned to simulate typical actual usage as per ANSI C63.10. 4, If a EUT received DC power from the USB Port of Notebook PC, the PCs adapter received AC120V/60Hz power through a Line Impedance Stabilization Network (LISN) which supplied power source and was grounded to the ground plane. 5, All support equipments received AC power from a second LISN, if any. 6, The EUT test program was started. Emissions were measured on each current carrying line of the EUT using a spectrum Analyzer / Receiver connected to the LISN powering the EUT. The LISN has two monitoring points: Line 1 (Hot Side) and Line 2 (Neutral Side). Two scans were taken: one with Line 1 connected to Analyzer / Receiver and Line 2 connected to a 50 ohm load; the second scan had Line 1 connected to a 50 ohm load and Line 2 connected to the Analyzer / Receiver. 7, Analyzer / Receiver scanned from 150 KHz to 30MHz for emissions in each of the test modes. 3.4 Test Result Pass Remark:

1. All modes were tested at AC 120V and 240V, only the worst result of AC 120V was reported. 2. Remark: We tested at 802.11b/802.11a/802.11ac/802.11ac40/802.11ac80/802.11n (40M) mode at the antenna single and antenna combination.and recored the worst data at 802.11a mode of Antenna B in the report. Page 10 of 76 Report No.: UNIA2018121702FR-02 Temperature:

Test Date:

Test Voltage:

Test Mode:

24 Dec. 5, 2018 AC 120V, 60Hz Transmitting 802.11ac20 mode for Antenna B Relative Humidity:

Pressure:

Phase:

48%

1010hPa Line Remark: Factor = Insertion Loss + Cable Loss, Result = Reading + Factor, Margin = Result Limit. Page 11 of 76 Report No.: UNIA2018121702FR-02 Temperature:

Test Date:

Test Voltage:

Test Mode:

24 Dec. 5, 2018 AC 120V, 60Hz Transmitting 802.11ac20 mode for Antenna B Relative Humidity:

Pressure:

Phase:

48%

1010hPa Neutral Remark: Factor = Insertion Loss + Cable Loss, Result = Reading + Factor, Margin = Result Limit. Page 12 of 76 Report No.: UNIA2018121702FR-02 4. RADIATED EMISSION TEST 4.1 Radiation Limit For unintentional device, according to 15.109(a), except for Class A digital devices, the field strength of radiated emissions from unintentional radiators at a distance of 3 meters shall not exceed the following values Frequency

(MHz) 30-88 88-216 216-960 Above 960 Distance

(Meters) 3 3 3 3 Radiated

(dBV/m) 40 43.5 46 54 Radiated

(V/m) 100 150 200 500 For intentional device, according to 15.209(a), the general requirement of field strength of radiated emissions from intentional radiators at a distance of 3 meters shall not exceed the above table. 4.2 Test Setup 1. Radiated Emission Test-Up Frequency Below 30MHz 2. Radiated Emission Test-Up Frequency 30MHz~1GHz Page 13 of 76 Report No.: UNIA2018121702FR-02 3. Radiated Emission Test-Up Frequency Above 1GHz 4.3 Test Procedure 1. Below 1GHz measurement the EUT is placed on turntable which is 0.8m above ground plane. And above 1GHz measurement EUT was placed on low permittivity and low tangent turn table which is 1.5m above ground plane. 2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. 3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest 4. Maximum procedure was performed on the six highest emissions to ensure EUT compliance. 5. And also, each emission was to be maximized by changing the polarization of receiving antenna both emissions. horizontal and vertical. 6. Repeat above procedures until the measurements for all frequencies are complete. 7. The test frequency range from 9KHz to 25GHz per FCC PART 15.33(a). 8.The distance between test antenna and EUT as following table states:

Test Frequency range Test Distance 9KHz-30MHz 30MHz-1GHz 1GHz-18GHz 18GHz-40GHz Test Antenna Type Active Loop Antenna Bilog Antenna Horn Antenna Horn Anternna 3 3 3 1 Note:

For battery operated equipment, the equipment tests shall be performed using a new battery. 4.4 Test Result PASS Remark:

1. All modes of 802.11b/g/n20 were test at Low, Middle, and High channel, only the worst result of 802.11a Low Channel was reported for below 1GHz test. 2. Remark: We tested at 802.11a/802.11ac/802.11ac40/802.11ac80/802.11n(40M) mode at the antenna single and antenna combination.and recored the worst data at 802.11a mode of Antenna B in the report. Page 14 of 76 Report No.: UNIA2018121702FR-02 Below 1GHz Test Results:

Temperature:

Test Date:

Test Voltage:

Test Mode:

Relative Humidity:

22 Pressure:

Dec. 5, 2018 AC 120V, 60Hz Polarization:

Transmitting 802.11ac20 mode for Antenna B 48%

1010hPa Horizontal Remark: Absolute Level = Reading Level + Factor, Margin = Absolute Level Limit Factor = Ant. Factor + Cable Loss Pre-amplifier Page 15 of 76 Report No.: UNIA2018121702FR-02 Temperature:

Test Date:

Test Voltage:

Test Mode:

Relative Humidity:

22 Pressure:

Dec. 5, 2018 AC 120V, 60Hz Polarization:

Transmitting 802.11ac20 mode for Antenna B 48%

1010hPa Vertical Remark: Absolute Level = Reading Level + Factor, Margin = Absolute Level Limit Factor = Ant. Factor + Cable Loss Pre-amplifier Remark

(1) Measuring frequencies from 9 KHz to the 1 GHz, Radiated emission test from 9KHz to 30MHz was verified, and no any emission was found except system noise floor.

(2) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(3) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. Page 16 of 76 Report No.: UNIA2018121702FR-02 Above 1 GHz Test Results:

Record the worst test data for Antenna B in report. 802.11a Mode (5180MHz) Horizontal:

Frequency

(MHz) 10360.00 10360.00 15540.00 15540.00 Reading Result

(dBV) 60.02 48.23 58.33 45.26 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 56.38 44.59 57.38 44.31 74 54 74 54

-17.62

-9.41

-16.62

-9.69 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10360.00 10360.00 15540.00 15540.00 Reading Result

(dBV) 62.34 48.56 58.34 49.36 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dBV/m) 58.7 44.92 57.39 48.41 74 54 74 54

(dB)

-15.3

-9.08

-16.61

-5.59 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 17 of 76 Report No.: UNIA2018121702FR-02 802.11a Mode (5200MHz) Horizontal:

Frequency

(MHz) 15720.00 15720.00 25450.00 25450.00 Reading Result

(dBV) 60.41 50.26 56.46 46.86 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dBV/m) 56.9 46.75 55.64 46.04 74 54 74 54

(dB)

-17.1

-7.25

-18.36

-7.96 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10480.00 10480.00 25950.00 25950.00 Reading Result

(dBV) 59.16 50.34 57.26 47.26 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 55.65 46.83 56.44 46.44 74 54 74 54

-18.35

-7.17

-17.56

-7.56 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 18 of 76 Report No.: UNIA2018121702FR-02 802.11a Mode (5240MHz) Horizontal:

Frequency

(MHz) 10360.00 10360.00 15540.00 15540.00 Reading Result

(dBV) 60.48 50.31 56.26 47.07 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 57.05 46.88 55.51 46.32 74 54 74 54

(dB)

-16.95

-7.12

-18.49

-7.68 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10360.00 10360.00 15540.00 15540.00 Reading Result

(dBV) 59.97 50.91 57.34 47.43 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 56.54 47.48 56.59 46.68 74 54 74 54

(dB)

-17.46

-6.52

-17.41

-7.32 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Remark

(1) Measuring frequencies from 1 GHz to the 25 GHz.

(2) F denotes fundamental frequency; H denotes spurious frequency. E denotes band edge frequency.

(3) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(4) Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for peak measurement with peak detector at frequency above 1GHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average measurement with peak detection at frequency above 1GHz.

(6) When the test results of Peak Detected below the limits of Average Detected, the Average Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the Average Detected not need to completed. Page 19 of 76 Report No.: UNIA2018121702FR-02 Record the worst test data for Combination of Antenna A, Antenna B, Antenna C and Antenna D in the report. 802.11ac 20M Mode (5180MHz) Horizontal:

Frequency

(MHz) 10360.00 10360.00 15540.00 15540.00 Reading Result

(dBV) 60.41 51.23 57.37 46.93 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dBV/m) 56.77 47.59 56.42 45.98 74 54 74 54

(dB)

-17.23

-6.41

-17.58

-8.02 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10360.00 10360.00 15540.00 15540.00 Reading Result

(dBV) 61.22 51.84 57.26 48.16 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 57.58 48.2 56.31 47.21 74 54 74 54

-16.42

-5.8

-17.69

-6.79 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 20 of 76 Report No.: UNIA2018121702FR-02 802.11ac 20M Mode (5200MHz) Horizontal:

Frequency

(MHz) 10400.00 10400.00 15600.00 15600.00 Reading Result

(dBV) 60.93 51.37 57.66 48.26 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dBV/m) 57.42 47.86 56.84 47.44 74 54 74 54

(dB)

-16.58

-6.14

-17.16

-6.56 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10400.00 10400.00 15600.00 15600.00 Reading Result

(dBV) 61.26 51.26 57.23 47.21 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 57.75 47.75 56.41 46.39 74 54 74 54

-16.25

-6.25

-17.59

-7.61 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 21 of 76 Report No.: UNIA2018121702FR-02 802.11ac 20M Mode (5240MHz) Horizontal:

Frequency

(MHz) 10480.00 10480.00 15720.00 15720.00 Reading Result

(dBV) 60.63 51.23 57.33 48.12 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 57.2 47.8 56.58 47.37 74 54 74 54

(dB)

-16.8

-6.2

-17.42

-6.63 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10480.00 10480.00 15720.00 15720.00 Reading Result

(dBV) 60.66 52.72 56.23 47.27 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 57.23 49.29 55.48 46.52 74 54 74 54

(dB)

-16.77

-4.71

-18.52

-7.48 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Remark

(1) Measuring frequencies from 1 GHz to the 25 GHz.

(2) F denotes fundamental frequency; H denotes spurious frequency. E denotes band edge frequency.

(3) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(4) Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for peak measurement with peak detector at frequency above 1GHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average measurement with peak detection at frequency above 1GHz.

(6) When the test results of Peak Detected below the limits of Average Detected, the Average Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the Average Detected not need to completed. Page 22 of 76 Report No.: UNIA2018121702FR-02 Record the worst test data for Combination of Antenna A, Antenna B, Antenna C and Antenna D in the report. 802.11ac 40M Mode (5190MHz) Horizontal:

Frequency

(MHz) 10380.00 10380.00 15570.00 15570.00 Reading Result

(dBV) 59.43 51.33 57.26 46.15 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dBV/m) 55.79 47.69 56.31 45.2 74 54 74 54

(dB)

-18.21

-6.31

-17.69

-8.8 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10380.00 10380.00 15570.00 15570.00 Reading Result

(dBV) 60.56 49.36 59.22 48.21 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 56.92 45.72 58.27 47.26 74 54 74 54

-17.08

-8.28

-15.73

-6.74 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 23 of 76 Report No.: UNIA2018121702FR-02 802.11ac 40M Mode (5230MHz) Horizontal:

Frequency

(MHz) 10460.00 10460.00 15690.00 15690.00 Reading Result

(dBV) 60.11 50.13 58.25 47.37 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dBV/m) 56.6 46.62 57.43 46.55 74 54 74 54

(dB)

-17.4

-7.38

-16.57

-7.45 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10460.00 10460.00 15690.00 15690.00 Reading Result

(dBV) 60.36 50.63 58.18 47.16 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 56.85 47.12 57.36 46.34 74 54 74 54

-17.15

-6.88

-16.64

-7.66 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 24 of 76 Report No.: UNIA2018121702FR-02 Record the worst test data for Combination of Antenna A, Antenna B, Antenna C and Antenna D in the report. 802.11ac 80M Mode (5210MHz) Horizontal:

Frequency

(MHz) 10420.00 10420.00 15630.00 15630.00 Reading Result

(dBV) 60.97 51.45 56.33 47.72 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 57.54 48.02 55.58 46.97 74 54 74 54

(dB)

-16.46

-5.98

-18.42

-7.03 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 10420.00 10420.00 15630.00 15630.00 Reading Result

(dBV) 60.55 49.83 58.46 46.96 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 57.12 46.4 57.71 46.21 74 54 74 54

(dB)

-16.88

-7.6

-16.29

-7.79 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Remark

(1) Measuring frequencies from 1 GHz to the 25 GHz.

(2) F denotes fundamental frequency; H denotes spurious frequency. E denotes band edge frequency.

(3) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(4) Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for peak measurement with peak detector at frequency above 1GHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average measurement with peak detection at frequency above 1GHz.

(6) When the test results of Peak Detected below the limits of Average Detected, the Average Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the Average Detected not need to completed. Page 25 of 76 Report No.: UNIA2018121702FR-02 Record the worst test data for Combination of Antenna A, Antenna B, Antenna C and Antenna D in the report. 802.11n 40M Mode (5190MHz) Horizontal:

Frequency

(MHz) 11490.00 11490.00 17235.00 17235.00 Reading Result

(dBV) 59.14 49.42 56.24 48.36 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dBV/m) 55.5 45.78 55.29 47.41 74 54 74 54

(dB)

-18.5

-8.22

-18.71

-6.59 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 11490.00 11490.00 17235.00 17235.00 Reading Result

(dBV) 60.29 50.04 58.44 46.92 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 56.65 46.4 57.49 45.97 74 54 74 54

-17.35

-7.6

-16.51

-8.03 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 26 of 76 Report No.: UNIA2018121702FR-02 802.11n 40M Mode (5230MHz) Horizontal:

Frequency

(MHz) 11650.00 11650.00 17475.00 17475.00 Reading Result

(dBV) 59.02 50.41 56.83 45.43 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 55.59 46.98 56.08 44.68 74 54 74 54

(dB)

-18.41

-7.02

-17.92

-9.32 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 11650.00 11650.00 17475.00 17475.00 Reading Result

(dBV) 59.87 48.42 58.47 45.05 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 56.44 44.99 57.72 44.3 74 54 74 54

(dB)

-17.56

-9.01

-16.28

-9.7 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Remark

(1) Measuring frequencies from 1 GHz to the 25 GHz.

(2) F denotes fundamental frequency; H denotes spurious frequency. E denotes band edge frequency.

(3) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(4) Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for peak measurement with peak detector at frequency above 1GHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average measurement with peak detection at frequency above 1GHz.

(6) When the test results of Peak Detected below the limits of Average Detected, the Average Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the Average Detected not need to completed. Page 27 of 76 Report No.: UNIA2018121702FR-02 5. BAND EDGE COMPLIANCE TEST 5.1 Limits For transmitters operating in the 5.15-5.25 GHz band: All emissions outside of the 5.15-5.35 GHz band shall not exceed an e.i.r.p. of 27 dBm/MHz. 5.2 Test Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range, and make sure the instrument is operated in its linear range. 3. Set RBW of spectrum analyzer to 1 MHz with a convenient frequency span. 4. Measure the highest amplitude appearing on spectral display and set it as a reference level. Plot the graph with marking the highest point and edge frequency. 5. Repeat above procedures until all measured frequencies were complete. we test all antennas, the antenna 1 was worst mode and the data recording in the report. 5.3 Test Result PASS Please see data as below:

Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Page 28 of 76 Report No.: UNIA2018121702FR-02 802.11aworst case at Antenna B Frequenc Emission y

(MHz) Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 50.75 40.96 49.9 40.83 PK AV PK AV H H H H 68.2 17.45 56.16 27.49 3.32 36.22 54 13.04 46.37 27.49 3.32 36.22 68.2 18.3 55.41 27.45 3.38 36.34 54 13.17 46.34 27.45 3.38 36.34 Frequenc y

(MHz) Emission Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 48.82 37.96 47.71 38.83 PK AV PK AV V V V V 68.2 19.38 54.23 27.49 3.32 36.22 54 16.04 43.37 27.49 3.32 36.22 68.2 20.49 53.22 27.45 3.38 36.34 54 15.17 44.34 27.45 3.38 36.34 REMARKS:

Emission level (dBuV/m) =Raw Value (dBuV)+Correction Factor (dB/m) Correction Factor (dB/m) = Antenna Factor (dB/m)+Cable Factor (dB)- Pre-amplifier Margin value = Limit value- Emission level. Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Page 29 of 76 Report No.: UNIA2018121702FR-02 802.11ac 20 Combined Antenna A,B,C and D Frequenc Emission y

(MHz) Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 48.83 37.75 48.9 40.72 PK AV PK AV H H H H 68.2 19.37 54.24 27.49 3.32 36.22 54 16.25 43.16 27.49 3.32 36.22 68.2 19.3 54.41 27.45 3.38 36.34 54 13.28 46.23 27.45 3.38 36.34 5150 5150 5350 5350 Frequenc y

(MHz) Emission Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 47.92 36.75 45.6 37.97 PK AV PK AV V V V V 68.2 20.28 53.33 27.49 3.32 36.22 54 17.25 42.16 27.49 3.32 36.22 68.2 22.6 51.11 27.45 3.38 36.34 54 16.03 43.48 27.45 3.38 36.34 REMARKS:

Emission level (dBuV/m) =Raw Value (dBuV)+Correction Factor (dB/m) Correction Factor (dB/m) = Antenna Factor (dB/m)+Cable Factor (dB)- Pre-amplifier Margin value = Limit value- Emission level. Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Page 30 of 76 Report No.: UNIA2018121702FR-02 802.11ac 40 Combined Antenna A,B,C and D Frequenc Emission y

(MHz) Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 50.11 40.01 48.75 41.23 PK AV PK AV H H H H 68.2 18.09 55.52 27.49 3.32 36.22 54 13.99 45.42 27.49 3.32 36.22 68.2 19.45 54.26 27.45 3.38 36.34 54 12.77 46.74 27.45 3.38 36.34 Frequenc y

(MHz) Emission Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 50.22 37.84 47.75 37.02 PK AV PK AV V V V V 68.2 17.98 55.63 27.49 3.32 36.22 54 16.16 43.25 27.49 3.32 36.22 68.2 20.45 53.26 27.45 3.38 36.34 54 16.98 42.53 27.45 3.38 36.34 REMARKS:

Emission level (dBuV/m) =Raw Value (dBuV)+Correction Factor (dB/m) Correction Factor (dB/m) = Antenna Factor (dB/m)+Cable Factor (dB)- Pre-amplifier Margin value = Limit value- Emission level. Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Page 31 of 76 Report No.: UNIA2018121702FR-02 802.11ac 80 Combined Antenna A,B,C and D Frequenc Emission y

(MHz) Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 47.52 41.88 48.32 36.87 PK AV PK AV H H H H 68.2 20.68 52.93 27.49 3.32 36.22 54 12.12 47.29 27.49 3.32 36.22 68.2 19.88 53.83 27.45 3.38 36.34 54 17.13 42.38 27.45 3.38 36.34 Frequenc y

(MHz) Emission Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 47.85 41.03 46.96 35.85 PK AV PK AV V V V V 68.2 20.35 53.26 27.49 3.32 36.22 54 12.97 46.44 27.49 3.32 36.22 68.2 21.24 52.47 27.45 3.38 36.34 54 18.15 41.36 27.45 3.38 36.34 REMARKS:

Emission level (dBuV/m) =Raw Value (dBuV)+Correction Factor (dB/m) Correction Factor (dB/m) = Antenna Factor (dB/m)+Cable Factor (dB)- Pre-amplifier Margin value = Limit value- Emission level. Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Correction Factor

(dB/m)

-5.41

-5.51

-5.51 Page 32 of 76 Report No.: UNIA2018121702FR-02 802.11n 40 Combined Antenna A,B,C and D Frequenc Emission Detector Mode ANT Pol Limit

(dBuV/m) y

(MHz) Level

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 48.48 40.94 46.95 35.85 PK AV PK AV H H H H 68.2 19.72 53.89 27.49 3.32 36.22 54 13.06 46.35 27.49 3.32 36.22 68.2 21.25 52.46 27.45 3.38 36.34 54 18.15 41.36 27.45 3.38 36.34 Frequenc y

(MHz) Emission Level

(dBuV/m) Detector Mode ANT Pol Limit

(dBuV/m) Margin

(dB) Raw Value

(dBuV) Antenna Factor

(dB/m) Cable Factor

(dB) Pre amplifier

(dB) 5150 5150 5350 5350 50.45 40.52 48.46 38.35 PK AV PK AV V V V V 68.2 17.75 55.86 27.49 3.32 36.22 54 13.48 45.93 27.49 3.32 36.22 68.2 19.74 53.97 27.45 3.38 36.34 54 15.65 43.86 27.45 3.38 36.34 REMARKS:

Emission level (dBuV/m) =Raw Value (dBuV)+Correction Factor (dB/m) Correction Factor (dB/m) = Antenna Factor (dB/m)+Cable Factor (dB)- Pre-amplifier Margin value = Limit value- Emission level. Page 33 of 76 Report No.: UNIA2018121702FR-02 6. OCCUPIED BANDWIDTH MEASUREMENT 6.1 Test Limit The bandwidth at 26 dB down from the highest in-band spectral density is measured with a spectrum analyzer connected to the antenna terminal while the EUT is operating at its maximum power control level, as defined in KDB 789033, at the appropriate frequencies. The spectrum analyzers bandwidth measurement function is configured to measure the 26 dB bandwidth. The 26 dB bandwidth is used to determine the conducted power limits. 6.2 Test Procedure a) Set RBW = approximately 1% of the emission bandwidth. b) Set the VBW > RBW. c) Detector = Peak. d) Trace mode = max hold. e) Measure the maximum width of the emission that is 26 dB down from the maximum of the emission. Compare this with the RBW setting of the analyzer. Readjust RBW and repeat measurement as needed until the RBW/EBW ratio is approximately 1%. The following procedure shall be used for measuring (99 %) power bandwidth:

1. Set center frequency to the nominal EUT channel center frequency. 2. Set span = 1.5 times to 5.0 times the OBW. 3. Set RBW = 1 % to 5 % of the OBW 4. Set VBW 3*RBW 5. Video averaging is not permitted. Where practical, a sample detection and single sweep mode shall be used. Otherwise, peak detection and max hold mode (until the trace stabilizes) shall be used. 6. Use the 99 % power bandwidth function of the instrument (if available). 7. If the instrument does not have a 99 % power bandwidth function, the trace data points are recovered and directly summed in power units. The recovered amplitude data points, beginning at the lowest frequency, are placed in a running sum until 0.5 % of the total is reached; that frequency is recorded as the lower frequency. The process is repeated until 99.5 % of the total is reached;

that frequency is recorded as the upper frequency. The 99% occupied bandwidth is the difference between these two frequencies. Same as Radiated Emission Measurement 6.3 Test Result PASS Page 34 of 76 Report No.: UNIA2018121702FR-02 26dB bandwidth Frequency

(MHz) 26dB Bandwidth

(MHz) 99% Bandwidth

(MHz) ANT A ANT B ANT C ANT D ANT A ANT B ANT C ANT D 5180 19.86 19.78 19.84 19.73 16.574 16.592 16.768 16.594 5200 5240 5180 5200 5240 5190 5230 19.78 19.72 19.81 19.71 16.559 16.588 16.746 16.567 19.67 19.81 19.78 19.76 16.576 16.615 16.789 16.550 20.05 20.82 20.27 19.87 17.546 17.792 17.650 17.504 20.00 20.46 20.41 20.02 17.544 17.769 17.664 17.543 20.03 20.50 20.27 20.02 17.557 17.772 17.647 17.532 38.95 39.92 39.91 39.35 36.001 35.946 35.933 36.027 39.55 39.82 39.49 39.31 36.024 35.944 35.901 36.003 5210 78.62 79.70 79.42 79.68 75.084 75.105 75.020 75.085 5190 39.39 39.83 39.61 39.85 36.028 35.935 35.936 35.989 5230 39.14 39.83 39.83 39.90 36.034 35.948 35.910 35.981 802.11a 802.11ac

(20M) 802.11ac

(40M) 802.11ac

(80M) 802.11n

(40M) Page 35 of 76 Report No.: UNIA2018121702FR-02 ANT A 802.11a 5180 5200 ANT A 802.11ac (20M) 5180 5200 5240 5240 Page 36 of 76 Report No.: UNIA2018121702FR-02 ANT A 802.11ac (40M) ANT A 802.11ac (80M) 5210 5190 5230 ANT A 802.11n (40M) 5190 5230 Page 37 of 76 Report No.: UNIA2018121702FR-02 ANT B 802.11a ANT B 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 38 of 76 Report No.: UNIA2018121702FR-02 ANT B 802.11ac (40M) ANT B 802.11ac (80M) 5210 5190 ANT B 802.11n (40M) 5190 5230 Page 39 of 76 Report No.: UNIA2018121702FR-02 ANT C 802.11a ANT C 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 40 of 76 Report No.: UNIA2018121702FR-02 ANT C 802.11ac (40M) ANT C 802.11ac (80M) 5210 5190 ANT C 802.11n (40M) 5190 5230 Page 41 of 76 Report No.: UNIA2018121702FR-02 ANT D 802.11a ANT D 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 42 of 76 Report No.: UNIA2018121702FR-02 ANT D 802.11ac (40M) ANT D 802.11ac (80M) 5210 5190 ANT D 802.11n (40M) 5190 5230 Page 43 of 76 Report No.: UNIA2018121702FR-02 6dB bandwidth Frequency

(MHz) 6dB Bandwidth

(MHz) 99% Bandwidth

(MHz) ANT A ANT B ANT C ANT D ANT A ANT B ANT C ANT D 16.56 16.66 16.37 16.52 16.750 17.079 16.741 16.553 16.52 16.63 16.37 16.51 16.571 17.084 16.746 16.553 16.55 16.51 16.36 16.48 16.578 17.076 16.767 16.558 17.44 17.67 17.38 17.37 17.550 17.797 17.653 17.530 17.31 17.64 17.53 17.32 17.501 17.757 17.659 17.541 17.51 17.66 17.58 17.47 17.555 17.773 17.659 17.528 35.90 36.25 36.25 35.76 36.029 35.940 35.929 36.028 36.16 36.26 36.04 35.97 36.032 35.931 35.909 36.014 75.22 75.28 75.69 75.38 75.073 75.032 75.116 75.111 36.11 36.23 36.22 36.26 36.036 35.943 35.934 35.969 5180 5200 5240 5180 5200 5240 5190 5230 5210 5190 5230 36.13 36.20 36.24 36.27 36.026 35.922 35.933 35.987 802.11a 802.11ac

(20M) 802.11ac

(40M) 802.11ac

(80M) 802.11n

(40M) Page 44 of 76 Report No.: UNIA2018121702FR-02 ANT A 802.11a 5180 5200 ANT A 802.11ac (20M) 5180 5200 5240 5240 Page 45 of 76 Report No.: UNIA2018121702FR-02 ANT A 802.11ac (40M) ANT A 802.11ac (80M) 5210 5190 5230 ANT A 802.11n (40M) 5190 5230 Page 46 of 76 Report No.: UNIA2018121702FR-02 ANT B 802.11a ANT B 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 47 of 76 Report No.: UNIA2018121702FR-02 ANT B 802.11ac (40M) ANT B 802.11ac (80M) 5210 5190 5230 ANT B 802.11n (40M) 5190 5230 Page 48 of 76 Report No.: UNIA2018121702FR-02 ANT C 802.11a ANT C 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 49 of 76 Report No.: UNIA2018121702FR-02 ANT C 802.11ac (40M) ANT C 802.11ac (80M) 5210 5190 5230 ANT C 802.11n (40M) 5190 5230 Page 50 of 76 Report No.: UNIA2018121702FR-02 ANT D 802.11a ANT D 802.11ac (20M) 5180 5200 5180 5200 5240 5240

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Test Report NII Part2

Test Report

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5.73 MiB

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Page 51 of 76 Report No.: UNIA2018121702FR-02 ANT D 802.11ac (40M) ANT D 802.11ac (80M) 5210 5190 5230 ANT D 802.11n (40M) 5190 5230 Page 52 of 76 Report No.: UNIA2018121702FR-02 7. POWER SPECTRAL DENSITY TEST 7.1 Test Limit In addition, the maximum power spectral density shall not exceed 11 dBm in any 1 megahertz band. In addition, the maximum power spectral density shall not exceed 30 dBm in any 500 kHz band. 7.2 Test Procedure 1. Place the EUT on the table and set it in transmitting mode. 2. The testing follows FCC KDB 789033 D02. 3. Remove the antenna from the EUT and then connect a low loss RF cable from the antenna port to Spectrum. 4. For U-NII1, U-NII-2A, U-NII-2C Band:

Set RBW=1MHz, VBW=3MHz, where span is enough to capture the entire bandwidth, Sweep time = Auto (601 pts), detector = sample, traces 100 sweeps of video averaging. (SA-2 with the omission of procedure x, the integration with 26dB EBW bandwidth) For U-NII-3 Band:

Set RBW=510 kHz, VBW=3*RBW, where span is enough to capture the entire bandwidth, Sweep time = Auto (601 pts), detector = sample, traces 100 sweeps of video averaging. (SA-2 with the omission of procedure x, the integration with 26dB EBW bandwidth) 5. User the cursor on spectrum to peak search the highest level of trace 6. Record the max. reading and add 10 log(1/duty cycle). we test all antennas, the antenna 1 was worst mode and the data recording in the report. 7.3 Test Result PASS Page 53 of 76 Report No.: UNIA2018121702FR-02 Frequency

(MHz) Reading Level (dBm) PSD

(dBm) ANT A ANT B ANT C ANT D ANT A ANT B ANT C ANT D FCC Limit

(dBm) Result 5180

-14.91

-15.90

-12.49

-13.06

-14.91

-15.90

-12.49

-13.06 11.00 Pass 802.11a 5220

-14.14

-15.68

-14.03

-13.80

-14.14

-15.68

-14.03

-13.80 11.00 Pass 5240

-13.54

-14.83

-12.99

-14.87

-13.54

-14.83

-12.99

-14.87 11.00 Pass 802.11ac

(20M) 802.11ac

(40M) 802.11ac

(80M) 802.11n

(40MHz) 5180

-15.20

-14.17

-13.91

-14.33 5220

-15.75

-15.37

-13.34

-12.37 5240

-14.72

-16.68

-15.50

-14.55 5190

-16.88

-18.81

-15.44

-15.95 5230

-16.79

-15.03

-15.62

-16.11 5210

-14.34

-11.14

-13.59

-12.00 5190

-17.10

-16.54

-15.40

-14.28 5230

-15.95

-15.11

-15.13

-15.89

-8.36

-7.96

-9.26

-10.57

-9.82

-6.56

-9.67

-9.48 5.98 Pass 5.98 5.98 5.98 5.98 5.98 5.98 5.98 Pass Pass Pass Pass Pass Pass Pass Page 54 of 76 Report No.: UNIA2018121702FR-02 ANT A 802.11a 5180 5200 ANT A 802.11ac (20M) 5180 5200 5240 5240 Page 55 of 76 Report No.: UNIA2018121702FR-02 ANT A 802.11ac (40M) ANT A 802.11ac (80M) 5210 5190 5230 ANT A 802.11n (40M) 5190 5230 Page 56 of 76 Report No.: UNIA2018121702FR-02 ANT B 802.11a ANT B 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 57 of 76 Report No.: UNIA2018121702FR-02 ANT B 802.11ac (40M) ANT B 802.11ac (80M) 5210 5190 5230 ANT B 802.11n (40M) 5190 5230 Page 58 of 76 Report No.: UNIA2018121702FR-02 ANT C 802.11a ANT C 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 59 of 76 Report No.: UNIA2018121702FR-02 ANT C 802.11ac (40M) ANT C 802.11ac (80M) 5210 5190 5230 ANT C 802.11n (40M) 5190 5230 Page 60 of 76 Report No.: UNIA2018121702FR-02 ANT D 802.11a ANT D 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 61 of 76 Report No.: UNIA2018121702FR-02 ANT D 802.11ac (40M) ANT D 802.11ac (80M) 5210 5190 5230 ANT D 802.11n (40M) 5190 5230 Note:

Page 62 of 76 Report No.: UNIA2018121702FR-02 1). Measured peak power spectrum density at difference data rate for each mode and recorded worst case for each mode. 2). Test results including cable loss;

3). 802.11b ,802.11g mode the ANT A, ANT B, ANT C, ANT D, can not TX and RX at the same time;

4). 802.11n(20)/ 802.11n(40) mode the ANT A, ANT B, ANT C, ANT D, can TX and RX at the same time;

5). Directional gain=GANT +10log(N)dbi =5.0+10log(4)=11.02dbi;

6). For MIMO with CCD technology device, The Directional Gain= Gain of individual transmit antennas (dBi) +

Array gain; Array gain = 10 log (Nant), where Nant is the number of transmit antennas. Page 63 of 76 Report No.: UNIA2018121702FR-02 8. MAXIMUM CONDUCTED OUTPUT POWER TEST 8.1 Test Limit For mobile and portable client devices in the 5.15-5.25 GHz band, the maximum conducted output power over the frequency band of operation shall not exceed 250 mW provided the maximum antenna gain does not exceed 6 dBi. For the band 5.725-5.85 GHz, the maximum conducted output power over the frequency band of operation shall not exceed 1 W. 8.2 Test Procedure The maximum average conducted output power can be measured using Method PM-G

(Measurement using a gated RF average power meter):

Measurements may be performed using a wideband gated RF power meter provided that the gate parameters are adjusted such that the power is measured only when the EUT is transmitting at its maximum power control level. Since the measurement is made only during the ON time of the transmitter, no duty cycle correction factor is required. a. The Transmitter output (antenna port) was connected to the power meter. b. Turn on the EUT and power meter and then record the power value. c. Repeat above procedures on all channels needed to be tested. 8.4 Test Result PASS All the test modes completed for test. Page 64 of 76 Report No.: UNIA2018121702FR-02 Frequency

(MHz) Average Output Power(dBm) Total Output Power(dBm) ANT A ANT B ANT C ANT D ANT A ANT B ANT C ANT D 802.11a 5180 13.32 13.25 13.45 13.15 13.32 13.25 13.45 13.15 5200 13.28 13.27 13.48 13.63 13.28 13.27 13.48 13.63 5240 13.25 14.97 13.02 13.78 13.25 13.34 13.02 13.78 802.11ac

(20M) 802.11ac

(40M) 802.11ac

(80M) 802.11n

(40M)Hz) 5180 12.22 12.17 12.11 12.63 5220 12.23 13.19 12.45 12.87 5240 12.29 12.20 12.16 13.26 5190 12.24 12.22 13.22 12.06 5230 12.25 12.19 12.44 12.78 5210 12.29 12.33 12.36 13.53 5190 12.26 12.06 12.42 12.53 5230 12.71 12.13 13.63 12.49 18.31 18.72 18.51 18.48 18.44 18.59 18.37 18.70 FCC Limit

(dBm) Result 30 30 30 Pass Pass Pass 24.98 Pass 24.98 Pass 24.98 Pass 24.98 Pass 24.98 Pass 24.98 Pass 24.98 Pass 24.98 Pass Note:

1) Measured output power at difference data rate for each mode and recorded worst case for each mode. 2). Test results including cable loss;

3). 802.11b ,802.11g mode the ANT A, ANT B, ANT C, ANT D can not TX and RX at the same time;

4). 802.11n(20)/ 802.11n(40) mode the ANT A, ANT B, ANT C, ANT D can TX and RX at the same time;

5). Directional gain=GANT +10log(N)dbi =5.0+10log(4)=11.02dbi;

6). For power test the duty cycle is 100% in continous transmitting mode. 7).TX means Transmitter; RX means Receive. Page 65 of 76 Report No.: UNIA2018121702FR-02 9. DUTY CYCLE TEST SIGNAL Pre-analysis Check: While conducting average power measurement, duty cycle of each mode shall be checked to ensure its duty cycle in order to compensate for the loss due to insufficient ratio of duty cycle. All duty cycle is pre-scanned, and result as obtained below shows only the most representative ones where duty cycle is conducted as the given transmission with given virtual operation that expresses the percentage. Formula:

Duty Cycle = Ton / (Ton+Toff) 9.2 Test Procedure 1. Set span = Zero 2. RBW = 8MHz 3. VBW = 50MHz, 4. Detector = Peak 9.3 Test Setup EUT SPECTRUM ANALYZER 9.4 Test Result PASS Duty Cycle:

Operation Mode Duty Cycle Duty Fator (dB) 10 * log (1/ Duty cycle) 802.11a 802.11ac(20M) 802.11ac(40M) 802.11ac(80M) 802.11n(40M) 100%

100%

0 0 0 0 0 Page 66 of 76 Report No.: UNIA2018121702FR-02 ANT A 802.11a 5180 5200 ANT A 802.11ac (20M) 5180 5200 5240 5240 Page 67 of 76 Report No.: UNIA2018121702FR-02 ANT A 802.11ac (40M) ANT A 802.11ac (80M) 5210 5190 5230 ANT A 802.11n (40M) 5190 5230 Page 68 of 76 Report No.: UNIA2018121702FR-02 ANT B 802.11a ANT B 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 69 of 76 Report No.: UNIA2018121702FR-02 ANT B 802.11ac (40M) ANT B 802.11ac (80M) 5210 5190 5230 ANT B 802.11n (40M) 5190 5230 Page 70 of 76 Report No.: UNIA2018121702FR-02 ANT C 802.11a ANT C 802.11ac (20M) 5180 5200 5180 5200 5240 5240 ANT C 802.11ac (40M) ANT C 802.11ac (80M) Page 71 of 76 Report No.: UNIA2018121702FR-02 5210 5190 5230 ANT C 802.11n (40M) 5190 5230 Page 72 of 76 Report No.: UNIA2018121702FR-02 ANT D 802.11a ANT D 802.11ac (20M) 5180 5200 5180 5200 5240 5240 Page 73 of 76 Report No.: UNIA2018121702FR-02 ANT D 802.11ac (40M) ANT D 802.11ac (80M) 5210 5190 5230 ANT D 802.11n (40M) 5190 5230 Page 74 of 76 Report No.: UNIA2018121702FR-02 10. FREQUENCY STABILITY 10.1 Test Limit Manufacturers of U-NII devices are responsible for ensuring frequency stability such that an emission is maintained within the band of operation under all conditions of normal operation as specified in the users manual. 10.2 Test Procedure 1. The EUT was placed inside temperature chamber and powered and powered by nominal DC voltage. 2. Set EUT as normal operation. 3. Turn the EUT on and couple its output to spectrum. 4. Turn the EUT off and set the chamber to the highest temperature specified. 5. Allow sufficient time (approximately 30 min) for the temperature of the chamber to stabilize, turn the EUT and measure the operating frequency. 6. Repeat step with the temperature chamber set to the lowest temperature. 10.3 Test Result PASS Page 75 of 76 Report No.: UNIA2018121702FR-02 11. ANTENNA REQUIREMENT Standard Applicable:

For intentional device, according to FCC 47 CFR Section 15.203, an intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. Antenna Connected Construction The antenna used in this product is an External Antenna, The directional gains of antenna used for transmitting is 5dBi. Page 76 of 76 Report No.: UNIA2018121702FR-02 12. PHOTOGRAPH OF TEST Radiated Emission

(Below 1G) Radiated Emission

(Above 1G) Conducted Emission

***End of Report***

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Test setup photos

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UNII Device Declaration Letter

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January 18 2019

Federal Communication Commission Equipment Authorization Division, Application Processing Branch 7435 Oakland Mills Road Columbia, MD 21046 UNII Device Declaration Letter To whom it may concern:

We have declared below featured for FCC equipment authorization, Device FCC IDX4YNYX2600

(1) DFS Device:

Master N/A Client with Radar detection capability Client without radar detection capability,

(2) Active / Passive Scanning , adhoc mode access point capability Frequency Band (MHz) 5180-5240 5190-5230 5210-5210 Active Scanning

(the device can transmit a probe

(beacon)) Yes Yes Yes No No No passive scanning

(where the device is can listen only with no probes) No Yes Yes No No Yes Ad Hoc Mode Capability Access point Capability Yes Yes Yes No No No Yes Yes Yes No No No

(3) Country code selection ability Yes If yes, pls explain how it was implemented:

No

(4) Meet 15.202 requirement Yes No pls check below :

A master device is defined as a device operating in a mode in which it has the capability to transmit without receiving an enabling signal. In this mode it is able to select a channel and initiate a network by sending enabling signals to other devices A client device is defined as a device operating in a mode in which the transmissions of the device are under control of the master. A device in client mode is not able to initiate a network.

(5) For client devices that have software configuration control to operate in different modes (active scanning in some and passive scanning in others) in different bands (devices with multiple equipment classes or those that operate on non- DFS frequencies) or modular devices which configure the modes of operations through software, the application must provide software and operations description on how the software and / or hardware is implemented to ensure that proper operations modes cannot be modified by end user or an installer. Apply

(If apply, pls help to provide explanation on it was implement, and how software was controlled) Does not apply Sincerely, Name:

Company:

Address:

Phone:

Fax:

E-Mail:

Albert Mizrachi/Vice president of product development NEXXT SOLUTIONS 3505 N.W. 107th AVE. MIAMI FLORIDA 33178 U.S.A 786-280-9600 305 477-5694 albert@intcomex.com

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Declaration of Disable WLAN Channel 12 and 13

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January 18 2019

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Test report-DTS Part1

Test Report

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January 18 2019

Page 1 of 64 Report No.: UNIA2018121702FR-01 FCC RADIO TEST REPORT FCC ID: X4YNYX2600 Product Nyx2600-AC Dual-Band AC Wireless Router Trade Name NEXXT Model Name ARLGL174U1 Serial Model N/A Report No. UNIA2018121702FR-01 Prepared for NEXXT SOLUTIONS 3505 N.W. 107th AVE. MIAMI FLORIDA 33178 U.S.A Prepared by Shenzhen United Testing Technology Co., Ltd. 2F, Annex Bldg, Jiahuangyuan Tech Park, #365 Baotian 1 Rd, Tiegang Community, Xixiang Str, Bao'an District, Shenzhen, China Page 2 of 64 Report No.: UNIA2018121702FR-01 TEST RESULT CERTIFICATION Applicants name ................. : NEXXT SOLUTIONS Address ................................. : 3505 N.W. 107th AVE. MIAMI FLORIDA 33178 U.S.A Manufacture's Name ............ : YICHEN (Shenzhen) Technology Co.,LTD Address ................................. :

6th Building, Yasen Industrial Park, Chengxin Road 8, Baolong Industrial Estate, Longgang District, Shenzhen, China. Product description Product name............................ : Nyx2600-AC Dual-Band AC Wireless Router Trade Mark ............................ : NEXXT Model and/or type reference : ARLGL174U1 Standards ............................. :

FCC Rules and Regulations Part 15 Subpart C Section 15.247 ANSI C63.10: 2013 This device described above has been tested by Shenzhen United Testing Technology Co., Ltd., and the test results show that the equipment under test (EUT) is in compliance with the FCC requirements. And it is applicable only to the tested sample identified in the report. This report shall not be reproduced except in full, without the written approval of UNI, this document may be altered or revised by Shenzhen United Testing Technology Co., Ltd., personnel only, and shall be noted in the revision of the document. Date of Test ........................................... :

Date (s) of performance of tests ............. : Dec. 2, 2018 ~ Dec. 20, 2018 Date of Issue .......................................... : Dec. 21, 2018 Test Result.............................................. : Pass Prepared by:

Kahn yang/Editor Reviewer:

Sherwin Qian/Supervisor Approved & Authorized Signer:

Liuze/Manager Page 3 of 64 Report No.: UNIA2018121702FR-01 Table of Contents Page 1 . TEST SUMMARY CONDUCTED BANDEGE MEASUREMENT SPURIOUS RF CONDUCTED EMISSION 2 . GENERAL INFORMATION 2.1 GENERAL DESCRIPTION OF EUT 2.2 Carrier Frequency of Channels 2.3 Operation of EUT during testing 2.4 DESCRIPTION OF TEST SETUP 2.5 MEASUREMENT INSTRUMENTS LIST 3 . CONDUCTED EMISSIONS TEST 3.1 Conducted Power Line Emission Limit 3.2 Test Setup 3.3 Test Procedure 3.4 Test Result 4. RADIATED EMISSION TEST 4.1 Radiation Limit 4.2 Test Setup 4.3 Test Procedure 4.4 Test Result 5. BAND EDGE 5.1 Limits 5.2 Test Procedure 5.3 Test Result 6. OCCUPIED BANDWIDTH MEASUREMENT 6.1 Test Limit 6.2 Test Procedure 6.3 Measurement Equipment Used 6.4 Test Result 7. POWER SPECTRAL DENSITY TEST 7.1 Test Limit 7.2 Test Procedure 7.3 Measurement Equipment Used 7.4 Test Result 5 5 5 6 6 7 7 7 8 9 9 9 9 9 12 12 12 13 13 28 28 28 28 30 30 30 30 30 40 40 40 40 40 Page 4 of 64 Report No.: UNIA2018121702FR-01 Table of Contents Page 8. PEAK OUTPUT POWER TEST 8.1 Test Limit 8.2 Test Procedure 8.3 Measurement Equipment Used 8.4 Test Result 9. OUT OF BAND EMISSIONS TEST 9.1 Test Limit 9.2 Test Procedure 9.3 Test Setup 9.4 Test Result 10. SPURIOUS RF CONDUCTED EMISSION 10.1 Test Limit 10.2 Test Procedure 10.3 Test Setup 10.4 Test Result 11. ANTENNA REQUIREMENT 12. PHOTOGRAPH OF TEST 49 49 49 49 49 50 50 50 50 50 59 59 59 59 59 63 64 Page 5 of 64 Report No.: UNIA2018121702FR-01 1. TEST SUMMARY 1.1 TEST PROCEDURES AND RESULTS DESCRIPTION OF TEST CONDUCTED EMISSIONS TEST RADIATED EMISSION TEST BAND EDGE OCCUPIED BANDWIDTH MEASUREMENT POWER SPECTRAL DENSITY PEAK OUTPUT POWER CONDUCTED BANDEGE MEASUREMENT SPURIOUS RF CONDUCTED EMISSION ANTENNA REQUIREMENT 1.2 TEST FACILITY RESULT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT COMPLIANT Test Firm Address

: Shenzhen United Testing Technology Co., Ltd.

: 2F, Annex Bldg, Jiahuangyuan Tech Park, #365 Baotian 1 Rd, Tiegang Community, Xixiang Str, Bao'an District, Shenzhen, China The testing quality ability of our laboratory meet with "Quality Law of People's Republic of China" Clause 19.The testing quality system of our laboratory meets with ISO/IEC-17025 requirements, which is approved by CNAS. This approval result is accepted by MRA of APLAC. Our test facility is recognized, certified, or accredited by the following organizations:

CNAS-LAB Code: L6494 The EMC Laboratory has been assessed and in compliance with CNAS-CL01 accreditation criteria for testing Laboratories (identical to ISO/IEC 17025:2017 General Requirements) for the Competence of testing Laboratories. Designation Number: CN1227 Test Firm Registration Number: 674885 The EMC Laboratory has been registered and fully described in a report filed with the (FCC) Federal Communications commission. The acceptance letter from the FCC is maintained in our files. 1.3 MEASUREMENT UNCERTAINTY Measurement Uncertainty

= 2.23dB, k=2 Conducted Emission Expanded Uncertainty

= 3.08dB, k=2 Radiated emission expanded uncertainty(9kHz-30MHz) Radiated emission expanded uncertainty(30MHz-1000MHz) = 4.42dB, k=2

= 4.06dB, k=2 Radiated emission expanded uncertainty(Above 1GHz) Page 6 of 64 Report No.: UNIA2018121702FR-01 2. GENERAL INFORMATION 2.1 GENERAL DESCRIPTION OF EUT Equipment Trade Mark Model Name Serial No. Model Difference FCC ID Antenna Type Antenna Gain Directional Gain Frequency Range Number of Channels Modulation Type Battery Power Source Adapter Model Nyx2600-AC Dual-Band AC Wireless Router NEXXT ARLGL174U1 N/A N/A X4YNYX2600 External Antenna 5dBi 5.0+10*log(4)=11.02dBi 802.11b/g/n20: 2412~2462 MHz 802.11n(HT40):2422~2452MHz 802.11b/g/n20: 11CH 802.11n(HT40):7 CCK, OFDM, DBPSK, DAPSK N/A DC 12V from adapter with AC 120(240)V/60Hz Manufacturer: Shenzhen Gongjin Electronics Co.,Ltd Model:S24B72-120A200-OK INPUT:AC 100-240V, 50/60Hz, 0.8A OUTPUT:DC 12V/2A Page 7 of 64 Report No.: UNIA2018121702FR-01 2.2 Carrier Frequency of Channels Channel List for 802.11b/g/n(20MHz) Channel 01 02 03 Frequency

(MHz) 2412 2417 2422 Channel 04 05 06 Frequency

(MHz) 2427 2432 2437 Channel 07 08 09 Frequency

(MHz) 2442 2447 2452 Channel 10 11 Frequency

(MHz) 2457 2462 2.3 Operation of EUT during testing Operating Mode The mode is used: Transmitting mode for 802.11b/g/n(20MHz)/n(40MHz) Low Channel: 2412MHz/2422MHz Middle Channel: 2437MHz High Channel: 2462MHz/2452MHz Test SW Version: MT7615 QA 0.0.1.85 2.4 DESCRIPTION OF TEST SETUP Operation of EUT during Conducted testing:

AC Power AC Power Adapter EUT Adapter EUT Operation of EUT during Radiation and Above1GHz Radiation testing:

Table for auxiliary equipment:

Equipment Description Manufacturer N/A N/A Model N/A Calibration Due Date N/A Page 8 of 64 Report No.: UNIA2018121702FR-01 2.5 MEASUREMENT INSTRUMENTS LIST Item Equipment Manufacturer Model No. Serial No. Calibrated until 1 2 3 4 1 2 3 4 5 6 AMN AMN EMI TEST RECEIVER AAN Horn Antenna BicoNILog Antenna PREAMP PREAMP EMI TEST RECEIVER VECTOR Signal Generator CONDUCTED EMISSIONS TEST Schwarzbeck NNLK8121 ETS Rohde&Schwarz TESEQ 3810/2 ESCI T8-Cat6 RADIATED EMISSION TEST Sunol Sunol HP HP Rohde&Schwarz DRH-118 JB1 Antenna 8449B 8447D ESR3 Rohde&Schwarz SMU200A Signal Generator 7 8 MXA Signal Analyzer 9 MXA Signal Analyzer 10 ANT Tower&Turn table Controller Agilent Agilent Agilent Champro Taihe Maorui Taihe Maorui 11 Anechoic Chamber 12 13 14 15 Shielding Room RF Power sensor RF Power sensor RF power divider Wideband radio communication tester Rohde&Schwarz Schwarzbeck Biconical antenna Biconical antenna Schwarzbeck Broadband Hybrid DARE DARE Anritsu 16 17 18 19 Schwarzbeck Antennas E4421B N9020A N9020A EM 1000 9m*6m*6m 6.4m*4m*3m RPR3006W RPR3006W K241B CMW500 VHA 9103 VHA 9103 8121370 00020199 101210 38888 A101415 A090215 3008A00160 2944A07999 101891 101521 MY4335105 MY50510140 MY51110104 60764 966A0001 643A0001 15I00041SNO88 15I00041SNO89 992289 154987 91032360 91032361 2019.9.9 2019.9.9 2019.9.9 2019.9.9 2019.9.29 2019.9.29 2019.9.9 2019.9.9 2019.9.9 2019.9.28 2019.9.28 2019.9.28 2019.9.9 2019.9.28 2019.9.9 2019.9.9 2019.3.14 2019.3.14 2019.9.28 2019.9.28 2019.9.8 2019.9.8 2019.9.8 VULB9163 VULB9163#958 Horn Antenna 20 21 Active Receive Loop 22 Horn Antenna Antenna 23 Microwave Broadband Preamplifier Power Meter 24 Active Loop Antenna 25 26 27 Frequency Meter DC Power Source Schwarzbeck BBHA9120D 9120D-1680 2019.1.12 Schwarzbeck FMZB 1919B 00023 2019.9.8 Schwarzbeck BBHA 9170 BBHA9170651 2019.03.14 Schwarzbeck BBV 9721 100472 2019.9.8 Com-Power KEYSIGHT VICTOR HYELEC AL-130R N1911A VC2000 HY5020E 10160009 MY50520168 997406086 055161818 2019.05.10 2019.05.10 2019.05.10 2019.05.10 Test software 1 E3 Audix 6.101223a N/A N/A Page 9 of 64 Report No.: UNIA2018121702FR-01 3. CONDUCTED EMISSIONS TEST Frequency 3.1 Conducted Power Line Emission Limit For unintentional device, according to 15.107(a) Line Conducted Emission Limits is as following 0.15~0.50 0.50~5.00 5.00~30.0 Maximum RF Line Voltage(dBV) Ave. 66 60 60 Q.P. 79 73 73 Ave. 56~46*

Q.P. 66~56*

CLASS B CLASS A 46 50 56 60

(MHz)

* Decreasing linearly with the logarithm of the frequency For intentional device, according to 15.207(a) Line Conducted Emission Limit is same as above table. 3.2 Test Setup 3.3 Test Procedure 1, The equipment was set up as per the test configuration to simulate typical actual usage per the users manual. A wooden table with a height of 0.8 meters is used and is placed on the ground plane as per ANSI C63.10. 2, Support equipment, if needed, was placed as per ANSI C63.10. 3, All I/O cables were positioned to simulate typical actual usage as per ANSI C63.10. 4, If a EUT received DC power from the USB Port of Notebook PC, the PCs adapter received AC120V/60Hz power through a Line Impedance Stabilization Network (LISN) which supplied power source and was grounded to the ground plane. 5, All support equipments received AC power from a second LISN, if any. 6, The EUT test program was started. Emissions were measured on each current carrying line of the EUT using a spectrum Analyzer / Receiver connected to the LISN powering the EUT. The LISN has two monitoring points: Line 1 (Hot Side) and Line 2 (Neutral Side). Two scans were taken: one with Line 1 connected to Analyzer / Receiver and Line 2 connected to a 50 ohm load; the second scan had Line 1 connected to a 50 ohm load and Line 2 connected to the Analyzer / Receiver. 7, Analyzer / Receiver scanned from 150 KHz to 30MHz for emissions in each of the test modes. 3.4 Test Result Pass Remark:

1. All modes were tested at AC 120V and 240V, only the worst result of AC 120V was reported. 2. Remark: We tested at 802.11b/802.11g/802.11n HT20/802.11n HT40 mode at the antenna single and recored the worst data 802.11b mode for Antenna B in report. Page 10 of 64 Report No.: UNIA2018121702FR-01 Temperature:

Test Date:

Test Voltage:

Test Mode:

24 Dec. 5, 2018 AC 120V, 60Hz Transmitting 802.11b mode for Antenna B Relative Humidity:

Pressure:

Phase:

48%

1010hPa Line Remark: Factor = Insertion Loss + Cable Loss, Result = Reading + Factor, Margin = Result Limit. Page 11 of 64 Report No.: UNIA2018121702FR-01 Temperature:

Test Date:

Test Voltage:

Test Mode:

24 Dec. 5, 2018 AC 120V, 60Hz Transmitting 802.11b mode for Antenna B Relative Humidity:

Pressure:

Phase:

48%

1010hPa Neutral Remark: Factor = Insertion Loss + Cable Loss, Result = Reading + Factor, Margin = Result Limit. Page 12 of 64 Report No.: UNIA2018121702FR-01 4. RADIATED EMISSION TEST 4.1 Radiation Limit For unintentional device, according to 15.109(a), except for Class A digital devices, the field strength of radiated emissions from unintentional radiators at a distance of 3 meters shall not exceed the following values Frequency

(MHz) 30-88 88-216 216-960 Above 960 Distance

(Meters) 3 3 3 3 Radiated

(dBV/m) 40 43.5 46 54 Radiated

(V/m) 100 150 200 500 For intentional device, according to 15.209(a), the general requirement of field strength of radiated emissions from intentional radiators at a distance of 3 meters shall not exceed the above table. 4.2 Test Setup 1. Radiated Emission Test-Up Frequency Below 30MHz 2. Radiated Emission Test-Up Frequency 30MHz~1GHz Page 13 of 64 Report No.: UNIA2018121702FR-01 3. Radiated Emission Test-Up Frequency Above 1GHz 4.3 Test Procedure 1. Below 1GHz measurement the EUT is placed on turntable which is 0.8m above ground plane. And above 1GHz measurement EUT was placed on low permittivity and low tangent turn table which is 1.5m above ground plane. 2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. 3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest 4. Maximum procedure was performed on the six highest emissions to ensure EUT compliance. 5. And also, each emission was to be maximized by changing the polarization of receiving antenna both emissions. horizontal and vertical. 6. Repeat above procedures until the measurements for all frequencies are complete. 7. The test frequency range from 9KHz to 25GHz per FCC PART 15.33(a). 8.The distance between test antenna and EUT as following table states:

Test Frequency range Test Distance 9KHz-30MHz 30MHz-1GHz 1GHz-18GHz 18GHz-25GHz Test Antenna Type Active Loop Antenna Bilog Antenna Horn Antenna Horn Anternna 3 3 3 1 Note:

For battery operated equipment, the equipment tests shall be performed using a new battery. 4.4 Test Result PASS Remark:

1. All modes of 802.11b/g/n20 were test at Low, Middle, and High channel, only the worst result of 802.11b Low Channel was reported for below 1GHz test. 2. Remark: We tested at 802.11b/802.11g/802.11n HT20/802.11n HT40 mode at the antenna single and recored the worst data 802.11b mode for Antenna B in report. Page 14 of 64 Report No.: UNIA2018121702FR-01 Below 1GHz Test Results:

Temperature:

Test Date:

Test Voltage:

Test Mode:

22 Dec. 5, 2018 AC 120V, 60Hz Transmitting 802.11b mode for Antenna B Relative Humidity:

Pressure:

Polarization:

48%

1010hPa Horizontal Remark: Absolute Level = Reading Level + Factor, Margin = Absolute Level Limit Factor = Ant. Factor + Cable Loss Pre-amplifier Page 15 of 64 Report No.: UNIA2018121702FR-01 Temperature:

Test Date:

Test Voltage:

Test Mode:

22 Dec. 5, 2018 AC 120V, 60Hz Transmitting 802.11b mode for Antenna B Relative Humidity:

Pressure:

Polarization:

48%

1010hPa Vertical Remark: Absolute Level = Reading Level + Factor, Margin = Absolute Level Limit Factor = Ant. Factor + Cable Loss Pre-amplifier Remark

(1) Measuring frequencies from 9 KHz to the 1 GHz, Radiated emission test from 9KHz to 30MHz was verified, and no any emission was found except system noise floor.

(2) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(3) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. Page 16 of 64 Report No.: UNIA2018121702FR-01 Above 1 GHz Test Results:

Record the wors test data for Antenna B in report. CH Low of 802.11b Mode (2412MHz) Horizontal:

Frequency

(MHz) 4824 4824 7236 7236 Reading Result

(dBV) 61.45 50.24 57.13 46.35 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 57.81 46.6 56.18 45.4 74 54 74 54

-16.19

-7.4

-17.82

-8.6 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4824 4824 7236 7236 Reading Result

(dBV) 61.34 49.83 57.26 48.12 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dBV/m) 57.7 46.19 56.31 47.17 74 54 74 54

(dB)

-16.3

-7.81

-17.69

-6.83 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 17 of 64 Report No.: UNIA2018121702FR-01 CH Middle of 802.11b Mode (2437MHz) Horizontal:

Frequency

(MHz) 4874 4874 7311 7311 Reading Result

(dBV) 61.44 51.23 57.33 46.26 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 57.93 47.72 56.51 45.44 74 54 74 54

-16.07

-6.28

-17.49

-8.56 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4874 4874 7311 7311 Reading Result

(dBV) 60.44 51.69 58.15 46.35 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 56.93 48.18 57.33 45.53 74 54 74 54

-17.07

-5.82

-16.67

-8.47 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 18 of 64 Report No.: UNIA2018121702FR-01 CH High of 802.11b Mode (2462MHz) Horizontal:

Frequency

(MHz) 4924 4924 7386 7386 Reading Result

(dBV) 61.22 51.32 57.03 46.07 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dB) 57.79 47.89 56.28 45.32 74 54 74 54

-16.21

-6.11

-17.72

-8.68 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4924 4924 7386 7386 Reading Result

(dBV) 61.53 49.91 57.46 46.43 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dBV/m) 58.1 46.48 56.71 45.68 74 54 74 54

(dB)

-15.9

-7.52

-17.29

-8.32 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Remark

(1) Measuring frequencies from 1 GHz to the 25 GHz.

(2) F denotes fundamental frequency; H denotes spurious frequency. E denotes band edge frequency.

(3) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(4) Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for peak measurement with peak detector at frequency above 1GHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average measurement with peak detection at frequency above 1GHz.

(6) When the test results of Peak Detected below the limits of Average Detected, the Average Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the Average Detected not need to completed. Page 19 of 64 Report No.: UNIA2018121702FR-01 Record the wors test data for Antenna B in report. CH Low of 802.11g Mode (2412MHz) Horizontal:

Frequency

(MHz) 4824 4824 7236 7236 Reading Result

(dBV) 62.12 50.74 58.19 47.63 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 58.48 47.1 57.24 46.68 74 54 74 54

-15.52

-6.9

-16.76

-7.32 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4824 4824 7236 7236 Reading Result

(dBV) 61.36 50.69 58.28 47.39 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 57.72 47.05 57.33 46.44 74 54 74 54

-16.28

-6.95

-16.67

-7.56 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 20 of 64 Report No.: UNIA2018121702FR-01 CH Middle of 802.11g Mode (2437MHz) Horizontal:

Frequency

(MHz) 4874 4874 7311 7311 Reading Result

(dBV) 62.89 50.68 58.56 47.42 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 59.38 47.17 57.74 46.6 74 54 74 54

-14.62

-6.83

-16.26

-7.4 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4874 4874 7311 7311 Reading Result

(dBV) 62.71 50.95 58.23 47.38 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dBV/m) 59.2 47.44 57.41 46.56 74 54 74 54

(dB)

-14.8

-6.56

-16.59

-7.44 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 21 of 64 Report No.: UNIA2018121702FR-01 CH High of 802.11g Mode (2462MHz) Horizontal:

Frequency

(MHz) 4924 4924 7386 7386 Reading Result

(dBV) 61.92 50.68 58.32 47.12 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dB) 58.49 47.17 57.5 46.3 74 54 74 54

-15.51

-6.83

-16.5

-7.7 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4924 4924 7386 7386 Reading Result

(dBV) 62.35 50.13 58.23 47.16 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dB) 58.92 46.7 57.48 46.41 74 54 74 54

-15.08

-7.3

-16.52

-7.59 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Remark

(1) Measuring frequencies from 1 GHz to the 25 GHz.

(2) F denotes fundamental frequency; H denotes spurious frequency. E denotes band edge frequency.

(3) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(4) Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for peak measurement with peak detector at frequency above 1GHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average measurement with peak detection at frequency above 1GHz.

(6) When the test results of Peak Detected below the limits of Average Detected, the Average Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the Average Detected not need to completed. Page 22 of 64 Report No.: UNIA2018121702FR-01 Record the worst test data for Combination of Antenna A, Antenna B, Antenna C and Antenna D in the report. CH Low of 802.11n/H20 Mode (2412MHz) Horizontal:

Frequency

(MHz) 4824 4824 7236 7236 Reading Result

(dBV) 62.05 50.49 58.11 47.24 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 58.41 46.85 57.16 46.29 74 54 74 54

-15.59

-7.15

-16.84

-7.71 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4824 4824 7236 7236 Reading Result

(dBV) 62.08 50.17 58.29 47.47 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 58.44 46.53 57.34 46.52 74 54 74 54

-15.56

-7.47

-16.66

-7.48 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 23 of 64 Report No.: UNIA2018121702FR-01 CH Middle of 802.11n/H20 Mode (2437MHz) Horizontal:

Frequency

(MHz) 4874 4874 7311 7311 Reading Result

(dBV) 62.38 49.04 57.25 47.39 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 58.87 45.53 56.43 46.57 74 54 74 54

-15.13

-8.47

-17.57

-7.43 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4874 4874 7311 7311 Reading Result

(dBV) 61.36 50.16 57.18 47.29 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 57.85 46.65 56.36 46.47 74 54 74 54

-16.15

-7.35

-17.64

-7.53 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 24 of 64 Report No.: UNIA2018121702FR-01 CH High of 802.11n/H20 Mode (2462MHz) Horizontal:

Frequency

(MHz) 4924 4924 7386 7386 Reading Result

(dBV) 62.9 50.13 57.26 47.36 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dB) 59.47 46.7 56.51 46.61 74 54 74 54

-14.53

-7.3

-17.49

-7.39 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4924 4924 7386 7386 Reading Result

(dBV) 62.87 50.36 57.68 47.89 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dB) 59.44 46.93 56.93 47.14 74 54 74 54

-14.56

-7.07

-17.07

-6.86 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Remark

(1) Measuring frequencies from 1 GHz to the 25 GHz.

(2) F denotes fundamental frequency; H denotes spurious frequency. E denotes band edge frequency.

(3) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(4) Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for peak measurement with peak detector at frequency above 1GHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average measurement with peak detection at frequency above 1GHz.

(6) When the test results of Peak Detected below the limits of Average Detected, the Average Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the Average Detected not need to completed. Page 25 of 64 Report No.: UNIA2018121702FR-01 Record the worst test data for Combination of Antenna A, Antenna B, Antenna C and Antenna D in the report. CH Low of 802.11n/H40 Mode (2422MHz) Horizontal:

Frequency

(MHz) 4884 4884 7266 7266 Reading Result

(dBV) 60.14 49.13 57.24 48.34 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dBV/m) 56.5 45.49 56.29 47.39 74 54 74 54

(dB)

-17.5

-8.51

-17.71

-6.61 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4884 4884 7266 7266 Reading Result

(dBV) 60.23 51.04 57.35 46.34 Factor Emission Level Limits Margin

(dB)

-3.64

-0.95

(dBV/m)

(dB) 56.59 47.4 56.4 45.39 74 54 74 54

-17.41

-6.6

-17.6

-8.61 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 26 of 64 Report No.: UNIA2018121702FR-01 CH Middle of 802.11n/H40 Mode (2437MHz) Horizontal:

Frequency

(MHz) 4874 4874 7311 7311 Reading Result

(dBV) 59.38 48.34 56.25 46.31 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dB) 55.87 44.83 55.43 45.49 74 54 74 54

-18.13

-9.17

-18.57

-8.51 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4874 4874 7311 7311 Reading Result

(dBV) 60.01 49.16 57.34 46.15 Factor Emission Level Limits Margin

(dB)

-3.51

-0.82

(dBV/m)

(dBV/m) 56.5 45.65 56.52 45.33 74 54 74 54

(dB)

-17.5

-8.35

-17.48

-8.67 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Page 27 of 64 Report No.: UNIA2018121702FR-01 CH High of 802.11n/H40 Mode (2452MHz) Horizontal:

Frequency

(MHz) 4904 4904 7356 7356 Reading Result

(dBV) 60.91 51.46 56.34 46.43 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dB) 57.48 48.03 55.59 45.68 74 54 74 54

-16.52

-5.97

-18.41

-8.32 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Vertical:

Frequency

(MHz) 4904 4904 7356 7386 Reading Result

(dBV) 60.87 48.36 57.34 46.89 Factor Emission Level Limits Margin

(dB)

-3.43

-0.75

(dBV/m)

(dB) 57.44 44.93 56.59 46.14 74 54 74 54

-16.56

-9.07

-17.41

-7.86 Detector Type PK AV PK AV Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin = Absolute Level Limit Remark

(1) Measuring frequencies from 1 GHz to the 25 GHz.

(2) F denotes fundamental frequency; H denotes spurious frequency. E denotes band edge frequency.

(3) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply.

(4) Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for peak measurement with peak detector at frequency above 1GHz. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average measurement with peak detection at frequency above 1GHz.

(6) When the test results of Peak Detected below the limits of Average Detected, the Average Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the Average Detected not need to completed. Page 28 of 64 Report No.: UNIA2018121702FR-01 5. BAND EDGE 5.1 Limits FCC PART 15.247 Emissions radiated outside of the specified frequency bands, except for harmonics, shall be attenuated by at least 20 dB below the level of the fundamental or to the general radiated emission limits in 15.209, whichever is the lesser attenuation. 5.2 Test Procedure The band edge compliance of RF radiated emission should be measured by following the guidance in ANSI C63.10 with respect to maximizing the emission by rotating the EUT, measuring the emission while the EUT is situated in three orthogonal planes (if appropriate), adjusting the measurement antenna height and polarization etc. Set RBW to 100KHz and VBM to 300KHz to measure the peak field strength and set RBW to 1MHz and VBW to 10Hz to measure the average radiated field strength. The conducted RF band edge was measured by using a spectrum analyzer. Set span wide enough to capture the highest in-band emission and the emission at the band edge. Set RBW to 100 KHz and VBW to 300 KHz, to measure the conducted peak band edge. 5.3 Test Result PASS

. We tested at 802.11b/802.11g mode at the antenna single;

We tested at 802.11n HT20/802.11n HT40 mode at the antenna single and antenna combination;

and recored the worst data at 802.11n 40 Combined Antenna A,B,C and D Horizontal:

Frequency Reading Result Factor Emission Level Limits

(MHz) 2310 2310 2390 2390 2400 2400

(dBV) 56.34

/

61.02 48.12 65.33 48.27

(dB)

-5.81

-5.84

(dBV/m)

(dBV/m) 50.53

/

55.18 42.28 59.49 42.43 74 54 74 54 74 54 Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Vertical:

Frequency Reading Result Factor Emission Level Limits

(MHz) 2310 2310 2390 2390 2400 2400

(dBV) 55.18

/

62.34 51.26 63.26 50.27

(dB)

-5.81

-5.84

(dBV/m)

(dBV/m) 49.37

/

56.5 45.42 57.42 44.43 74 54 74 54 74 54 Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin

(dB)

-23.47

/

-18.82

-11.72

-14.51

-11.57 Margin

(dB)

-24.63

/

-17.5

-8.58

-16.58

-9.57 Detector Type PK AV PK AV PK AV Detector Type PK AV PK AV PK AV Page 29 of 64 Report No.: UNIA2018121702FR-01 Horizontal :

Frequency Reading Result Factor Emission Level Limits

(MHz) 2483.5 2483.5 2500 2500

(dBV) 54.27

/

55.34

/

(dB)

-5.54

-5.72

(dBV/m)

(dBV/m) 48.73

/

49.62

/

74 54 74 54 Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Vertical:

Frequency Reading Result Factor Emission Level Limits

(MHz) 2483.5 2483.5 2500 2500

(dBV) 55.36

/

54.92

/

(dB)

-5.54

-5.72

(dBV/m)

(dBV/m) 49.82

/

49.2

/

74 54 74 54 Remark: Factor = Antenna Factor + Cable Loss Pre-amplifier. Margin

(dB)

-25.27

/

-24.38

/

Margin

(dB)

-24.18

/

-24.8

/

Detector Type PK AV PK AV Detector Type PK AV PK AV Page 30 of 64 Report No.: UNIA2018121702FR-01 6. OCCUPIED BANDWIDTH MEASUREMENT 6.1 Test Limit FCC Part15(15.247), Subpart C Section Test Item Limit 15.247(a)(2) Bandwidth

>= 500KHz

(6dB bandwidth) Frequency Range

(MHz) 2400-2483.5 Result PASS 6.2 Test Procedure 1. The EUT was placed on a turn table which is 0.8m above ground plane. 2. Set EUT as normal operation. 3. Based on FCC Part15 C Section 15.247: RBW=100KHz, VBW=300KHz. 4. The useful radiated emission from the EUT was detected by the spectrum analyzer with peak detector. 6.3 Measurement Equipment Used Same as Radiated Emission Measurement 6.4 Test Result PASS Type 802.11b 802.11g 802.11nHT20 802.11nHT40 Result Pass Pass Pass Pass Channel ANT A 6dB Bandwidth (MHz) Limit (KHz) 500 500 500 500 01 06 11 01 06 11 01 06 11 03 06 09 10.08 10.08 9.548 15.12 15.12 15.12 15.12 15.11 15.12 33.83 33.83 33.84 Page 31 of 64 Report No.: UNIA2018121702FR-01 ANT B 6dB Bandwidth (MHz) 10.08 10.07 10.08 15.11 15.11 15.12 15.12 15.12 15.12 33.80 33.81 33.82 11.11 11.08 12.11 15.11 15.10 15.11 16.63 16.80 16.03 35.11 35.10 35.11 12.10 10.14 11.09 16.36 16.32 16.31 17.13 17.09 17.09 35.13 35.12 35.12 ANT C 6dB Bandwidth (MHz) ANT D 6dB Bandwidth (MHz) Limit (KHz) 500 500 500 500 Limit (KHz) 500 500 500 500 Limit (KHz) 500 500 500 500 Result Pass Pass Pass Pass Result Pass Pass Pass Pass Result Pass Pass Pass Pass Type 802.11b 802.11g 802.11nHT20 802.11nHT40 Type 802.11b 802.11g 802.11nHT20 802.11nHT40 Type 802.11b 802.11g 802.11nHT20 802.11nHT40 Channel 01 06 11 01 06 11 01 06 11 03 06 09 Channel 01 06 11 01 06 11 01 06 11 03 06 09 Channel 01 06 11 01 06 11 01 06 11 03 06 09 Page 32 of 64 Report No.: UNIA2018121702FR-01 ANT A 802.11b ANT A 802.11g CH01 CH06 CH01 CH06 CH11 CH11 Page 33 of 64 Report No.: UNIA2018121702FR-01 ANT A 802.11n HT20 ANT A 802.11n HT40 CH01 CH06 CH03 CH06 CH11 CH09 Page 34 of 64 Report No.: UNIA2018121702FR-01 ANT B 802.11b ANT B 802.11g CH01 CH06 CH01 CH06 CH11 CH11 Page 35 of 64 Report No.: UNIA2018121702FR-01 ANT B 802.11n HT20 ANT B 802.11n HT40 CH01 CH06 CH03 CH06 CH11 CH09 Page 36 of 64 Report No.: UNIA2018121702FR-01 ANT C 802.11b ANT C 802.11g CH01 CH06 CH01 CH06 CH11 CH11 Page 37 of 64 Report No.: UNIA2018121702FR-01 ANT C 802.11n HT20 ANT C 802.11n HT40 CH01 CH06 CH03 CH06 CH11 CH09 Page 38 of 64 Report No.: UNIA2018121702FR-01 ANT D 802.11b ANT D 802.11g CH01 CH06 CH01 CH06 CH11 CH11 Page 39 of 64 Report No.: UNIA2018121702FR-01 ANT D 802.11n HT20 ANT D 802.11n HT40 CH01 CH06 CH03 CH06 CH11 CH09 Page 40 of 64 Report No.: UNIA2018121702FR-01 7. POWER SPECTRAL DENSITY TEST 7.1 Test Limit FCC Part15(15.247), Subpart C Section Test Item Limit 15.247 Power Spectral Density 8 dBm

(in any 3KHz) Frequency Range

(MHz) 2400-2483.5 Result PASS 7.2 Test Procedure 1. The EUT was placed on a turn table which is 0.8m above ground plane. 2. Set EUT as normal operation. 3. Based on FCC Part15 C Section 15.247: RBW=3KHz, VBW=10KHz. 4. The useful radiated emission from the EUT was detected by the spectrum analyzer with peak detector. 7.3 Measurement Equipment Used Same as Radiated Emission Measurement 7.4 Test Result PASS Type Channel

(dBm/3KHz)

(dBm/3KHz) Power Spectral Density ANT A

-8.038

-8.150

-8.491

-8.073

-9.257

-9.189

-9.525

-9.158

-9.326

-10.036

-11.050

-11.104 Power Spectral Density ANT B

-5.681

-6.894

-7.915

-8.641

-7.986

-8.938

-8.647

-9.148

-8.951

-11.042

-10.499

-11.785 Power Spectral Density ANT C

-8.701

-8.306

-9.844

-9.144

-8.570

-9.634

-9.365

-9.418

-9.194

-10.387

-10.932

-12.295 Power Spectral Density ANT D

-8.352

-8.182

-9.289

-9.307

-9.036

-9.313

-9.293

-9.692

-9.139

-12.094

-11.763

-12.347 Power Spectral Density Total(dB m/3KHz) Limit

(dBm/

3KHz) Result

/

-3.17

-3.33

-3.13

-4.80

-5.02

-5.83 8.00 Pass 8.00 Pass 2.98 Pass 2.98 Pass 802.11b 802.11g 802.11n(HT20) 802.11n(HT40) 01 06 11 01 06 11 01 06 11 03 06 09 Note:

1). Measured peak power spectrum density at difference data rate for each mode and recorded worst case for each mode. 2). Test results including cable loss;

3). 802.11b ,802.11g mode the ANT A, ANT B, ANT C and ANT D can not TX and RX at the same time;

4). 802.11n(20) mode the ANT A, ANT B, ANT C and ANT D can TX and RX at the same time;

5). Directional gain=GANT +10log(N)dbi =5.0+10log(4)=11.02dbi;

6). For MIMO with CCD technology device, The Directional Gain= Gain of individual transmit antennas (dBi) +

Array gain; Array gain = 10 log (Nant), where Nant is the number of transmit antennas. Page 41 of 64 Report No.: UNIA2018121702FR-01 ANT A 802.11b ANT A 802.11g CH01 CH06 CH01 CH06 CH11 CH11 Page 42 of 64 Report No.: UNIA2018121702FR-01 ANT A 802.11n HT20 ANT A 802.11n HT40 CH01 CH06 CH03 CH06 CH11 CH09 Page 43 of 64 Report No.: UNIA2018121702FR-01 ANT B 802.11b ANT B 802.11g CH01 CH06 CH01 CH06 CH11 CH11

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Test report-DTS Part2

Test Report

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Page 44 of 64 Report No.: UNIA2018121702FR-01 ANT B 802.11n HT20 ANT B 802.11n HT40 CH01 CH06 CH03 CH06 CH11 CH09 Page 45 of 64 Report No.: UNIA2018121702FR-01 ANT C 802.11b ANT C 802.11g CH01 CH06 CH01 CH06 CH11 CH11 Page 46 of 64 Report No.: UNIA2018121702FR-01 ANT C 802.11n HT20 ANT C 802.11n HT40 CH01 CH06 CH03 CH06 CH11 CH09 Page 47 of 64 Report No.: UNIA2018121702FR-01 ANT D 802.11b ANT D 802.11g CH01 CH06 CH01 CH06 CH11 CH11 Page 48 of 64 Report No.: UNIA2018121702FR-01 ANT D 802.11n HT20 ANT D 802.11n HT40 CH01 CH06 CH03 CH06 CH11 CH09 Page 49 of 64 Report No.: UNIA2018121702FR-01 8. PEAK OUTPUT POWER TEST 8.1 Test Limit FCC Part15(15.247), Subpart C Section Test Item Limit Frequency Range

(MHz) 15.247(b)(3) Peak Output Power 1 watt or 30dBm 2400-2483.5 Result PASS 8.2 Test Procedure 1. The EUT was placed on a turn table which is 0.8m above ground plane. 2. The EUT was directly connected to the Power meter. 8.3 Measurement Equipment Used Used a Power meter. 8.4 Test Result PASS All the test modes completed for test. Type Channel PK (dBm) PK (dBm) Output power ANT A 14.15 14.84 15.63 14.36 13.26 14.35 13.26 14.34 14.71 13.24 13.56 13.78 Output power ANT B 14.14 14.23 15.89 14.26 14.76 13.96 14.48 14.35 14.03 13.44 13.26 14.14 Output power PK (dBm) ANT C 14.21 13.94 14.27 14.93 13.05 14.75 14.36 15.47 13.30 13.69 14.23 13.11 Output power PK (dBm) ANT D 14.06 14.49 15.35 15.04 13.31 14.65 14.06 14.63 14.14 13.26 13.46 13.79 Output power Total

(dBm)

/

20.09 20.74 20.09 19.43 19.66 19.74 Limit

(dBm) Result 30.00 Pass 30.00 Pass 24.98 Pass 24.98 Pass 802.11b 802.11g 802.11n(HT20) 802.11n(HT40) 01 06 11 01 06 11 01 06 11 03 06 09 Note:

1) Measured output power at difference data rate for each mode and recorded worst case for each mode. 2). Test results including cable loss;

3). 802.11b ,802.11g mode the ANT A, ANT B, ANT C and ANT D can not TX and RX at the same time;

4). 802.11n(20) mode the ANT A, ANT B, ANT C and ANT D can TX and RX at the same time;

5). Directional gain=GANT +10log(N)dbi =5.0+10log4=11.02dbi;

6). For power test the duty cycle is 100% in continous transmitting mode. 7).TX means Transmitter; RX means Receive. Page 50 of 64 Report No.: UNIA2018121702FR-01 9. OUT OF BAND EMISSIONS TEST 9.1 Test Limit In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20dB. 9.2 Test Procedure 1. The EUT was placed on a turn table which is 0.8m above ground plane. 2. Set EUT as TX operation and connect directly to the spectrum analyzer. 3. Based on FCC Part15 C Section 15.247: RBW=100KHz, VBW=300KHz. 4. Set detected by the spectrum analyzer with peak detector. 9.3 Test Setup 9.4 Test Result EUT SPECTRUM ANALYZER PASS Page 51 of 64 Report No.: UNIA2018121702FR-01 ANT A 802.11b Frequency

(MHz) 2400.00 2483.50 Frequency

(MHz) 2400.00 2483.05 Delta Peak to Band emission (dBc) 38.345 61.238 Limit (dBc) 20 20 Verdict PASS PASS 2412 2462 802.11g Delta Peak to Band emission (dBc) 28.425 41.682 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 Page 52 of 64 Report No.: UNIA2018121702FR-01 802.11n HT20 Frequency

(MHz) 2400.00 2483.50 Frequency

(MHz) 2400.00 2483.50 Delta Peak to Band emission (dBc) 27.408 37.684 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 802.11n HT40 Delta Peak to Band emission (dBc) 24.740 29.628 Limit

(dBc) 20 20 Verdict PASS PASS 2422 2452 Page 53 of 64 Report No.: UNIA2018121702FR-01 ANT B 802.11b Frequency

(MHz) 2400.00 2483.50 Frequency

(MHz) 2400.00 2483.05 Delta Peak to Band emission (dBc) 42.221 57.592 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 802.11g Delta Peak to Band emission (dBc) 29.492 43.165 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 Page 54 of 64 Report No.: UNIA2018121702FR-01 802.11n HT20 Frequency

(MHz) 2400.00 2483.50 Frequency

(MHz) 2400.00 2483.50 Delta Peak to Band emission (dBc) 29.356 39.012 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 802.11n HT40 Delta Peak to Band emission (dBc) 25.913 29.092 Limit

(dBc) 20 20 Verdict PASS PASS 2422 2452 Page 55 of 64 Report No.: UNIA2018121702FR-01 ANT C 802.11b Frequency

(MHz) 2400.00 2483.50 Frequency

(MHz) 2400.00 2483.05 Delta Peak to Band emission (dBc) 37.219 60.77 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 802.11g Delta Peak to Band emission (dBc) 30.57 42.187 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 Page 56 of 64 Report No.: UNIA2018121702FR-01 802.11n HT20 Frequency

(MHz) 2400.00 2483.50 Frequency

(MHz) 2400.00 2483.50 Delta Peak to Band emission (dBc) 27.398 38.326 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 802.11n HT40 Delta Peak to Band emission (dBc) 25.023 30.126 Limit

(dBc) 20 20 Verdict PASS PASS 2422 2452 Page 57 of 64 Report No.: UNIA2018121702FR-01 ANT D 802.11b Frequency

(MHz) 2400.00 2483.50 Frequency

(MHz) 2400.00 2483.05 Delta Peak to Band emission (dBc) 42.085 58.11 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 802.11g Delta Peak to Band emission (dBc) 32.563 41.392 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 Page 58 of 64 Report No.: UNIA2018121702FR-01 802.11n HT20 Frequency

(MHz) 2400.00 2483.50 Frequency

(MHz) 2400.00 2483.50 Delta Peak to Band emission (dBc) 32.054 41.571 Limit

(dBc) 20 20 Verdict PASS PASS 2412 2462 802.11n HT40 Delta Peak to Band emission (dBc) 31.523 33.731 Limit

(dBc) 20 20 Verdict PASS PASS 2422 2452 Page 59 of 64 Report No.: UNIA2018121702FR-01 10. SPURIOUS RF CONDUCTED EMISSION 10.1 Test Limit 1. Below -20dB of the highest emission level in operating band. 2. Fall in the restricted bands listed in section 15.205. The maximum permitted average field strength is listed in section 15.209. 3.For below 30MHz,For 9KHz-150kHz,150K-10MHz,We use the RBW 1KHz,10KHz, So the limit need to calculated by 10lg(BW1/BW2). for example For9KHz-150kHz,RBW 1KHz, The Limit= the highest emission level-20-10log(100/1)= the highest emission level-40. 10.2 Test Procedure The Spurious RF conducted emissions compliance of RF radiated emission should be measured by following the guidance in ANSI C63.10-2013, For 9KHz-150kHz, Set RBW=1kHz and VBW= 3KHz;

For 150KHz-10MHz, Set RBW=10kHz and VBW= 30KHz:For 10MHz-25GHz ,Set RBW=100kHz and VBW= 300KHz in order to measure the peak field strength, and mwasure frequeny range from 9KHz to 25GHz. 10.3 Test Setup 10.4 Test Result PASS Remark: The measurement frequency range is from 9KHz to the 10th harmonic of the fundamental frequency. The lowest, middle and highest channels are tested to verify the spurious emissions and bandege measurement data.and record the worstest data for Antenna B in report . Page 60 of 64 Report No.: UNIA2018121702FR-01 Test Mode:

802.11b Test channel :

01 Channel 01 30MHz ~3GHz 3GHz~25GHz Page 61 of 64 Report No.: UNIA2018121702FR-01 Test Mode:

802.11b Test channel :

06 Channel 06 30MHz ~3GHz 3GHz~25GHz Page 62 of 64 Report No.: UNIA2018121702FR-01 Test Mode:

802.11b Test channel :

11 Channel 11 30MHz ~3GHz 3GHz~25GHz Page 63 of 64 Report No.: UNIA2018121702FR-01 11. ANTENNA REQUIREMENT Standard Applicable:

For intentional device, according to FCC 47 CFR Section 15.203, an intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. Antenna Connected Construction The antenna used in this product is an External Antenna, The directional gains of antenna used for transmitting is 5dBi. Page 64 of 64 Report No.: UNIA2018121702FR-01 12. PHOTOGRAPH OF TEST Radiated Emission

(Below 1G) Radiated Emission

(Above 1G) Conducted Emission

***End of Report***

		frequency	equipment class	purpose
1	2019-01-18	5190 ~ 5230	NII - Unlicensed National Information Infrastructure TX	Original Equipment
2		2422 ~ 2452	DTS - Digital Transmission System

Equipment Specifications
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
1	1	15E	CC MO	5180	5240	0.0745
1	2	15E	CC MO	5190	5230	0.0741
1	3	15E	CC MO	5210	5210	0.0723
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
2	1	15C	CC MO	2412	2462	0.1186
2	2	15C	CC MO	2422	2452	0.0942

FCC ID: X4YNYX2600 Nyx2600-AC Dual-Band AC Wireless Router

by: NEXXT SOLUTIONS latest update: 2019-01-18 model: NYX2600

Application Forms

app s	Applicant Information
1 2	Effective	2019-01-18
1 2	Applicant's complete, legal business name	NEXXT SOLUTIONS
1 2	FCC Registration Number (FRN)	0019499201
1 2	Physical Address	3505 N.W 107TH AVE.
1 2		MIAMI, FL
1 2		United States

app s	TCB Information
1 2	TCB Application Email Address	j******@eurofins.com
1 2	TCB Scope	A4: UNII devices & low power transmitters using spread spectrum techniques

app s	FCC ID
1 2	Grantee Code	X4Y
1 2	Equipment Product Code	NYX2600

app s	Person at the applicant's address to receive grant or for contact
1 2	Name	A****** M****
1 2	Title	Vice president of product development
1 2	Telephone Number	786-2********
1 2	Fax Number	305 4********
1 2	E-mail	a******@intcomex.com

app s	Technical Contact
		n/a

app s	Non Technical Contact
		n/a

app s	Confidentiality (long or short term)
1 2	Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	Yes
1 2	Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	No
	if no date is supplied, the release date will be set to 45 calendar days past the date of grant.

app s	Cognitive Radio & Software Defined Radio, Class, etc
1 2	Is this application for software defined/cognitive radio authorization?	No
1 2	Equipment Class	NII - Unlicensed National Information Infrastructure TX
1 2	Equipment Class	DTS - Digital Transmission System
1 2	Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant)	Nyx2600-AC Dual-Band AC Wireless Router
1 2	Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application?	No
1 2	Modular Equipment Type	Does not apply
1 2	Purpose / Application is for	Original Equipment
1 2	Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization?	Yes
1 2	Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization?	No
1 2	Grant Comments	Output power listed is average conducted. This device supports 4*4MIMO and supports 802.11a, 802.11n and 802.11ac with a 20 MHz, 40 MHz and 80MHz bandwidth mode. RF exposure compliance is addressed for 1.1310 and 2.1091 MPE limits. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons. End Users must be provided with transmitter operation conditions for satisfying RF exposure compliance.
1 2	Grant Comments	Output Power listed is peak conducted. This device supports 4*4MIMO and supports 802.11b, 802.11g and 802.11n with a 20 MHz and 40 MHz bandwidth mode. RF exposure compliance is addressed for 1.1310 and 2.1091 MPE limits. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons. End Users must be provided with transmitter operation conditions for satisfying RF exposure compliance.
1 2	Is there an equipment authorization waiver associated with this application?	No
1 2	If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded?	No

app s	Test Firm Name and Contact Information
1 2	Firm Name	Shenzhen United Testing Technology Co., Ltd.
1 2	Name	L****** Z****
1 2	Telephone Number	86-75********
1 2	E-mail	h******@uni-lab.hk