FCC Test Report. Report No.: RF170922C07 FCC ID: 2AGDE-WRT3061. Test Model: WRT3061. Received Date: Sep. 22, 2017

Transcription

1 FCC Test Report Report No.: RF170922C07 FCC ID: 2AGDE-WRT3061 Test Model: WRT3061 Received Date: Sep. 22, 2017 Test Date: Oct. 11, 2017 ~ Oct. 17, 2017 Issued Date: Nov. 29, 2017 Applicant: WondaLink Inc. Address: 2F, No. 23, R&D Road 2 Science-Based Industrial Park Hsin-Chu Taiwan R.O.C Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Lab Address: No. 47-2, 14th Ling, Chia Pau Vil., Lin Kou Dist., New Taipei City, Taiwan ( R.O.C ) Test Location: No. 19, Hwa Ya 2nd Rd, Wen Hwa Tsuen, Kwei Shan Hsiang, Taoyuan Hsien 333, Taiwan, R.O.C. FCC Registration / Designation Number: / TW0003 This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified herein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product unless specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specific mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non-compliance to the specification. Report No.: RF170922C07 Page No. 1 / 69 Report Format Version: 6.1.1

2 Table of Contents Release Control Record Certificate of Conformity Summary of Test Results Measurement Uncertainty Modification Record General Information General Description of EUT Description of Test Modes Test Mode Applicability and Tested Channel Detail Duty Cycle of Test Signal Description of Support Units Configuration of System under Test General Description of Applied Standards Test Types and Results Radiated Emission and Bandedge Measurement Limits of Radiated Emission and Bandedge Measurement Test Instruments Test Procedures Deviation from Test Standard Test Set Up EUT Operating Conditions Test Results Conducted Emission Measurement Limits of Conducted Emission Measurement Test Instruments Test Procedures Deviation from Test Standard Test Setup EUT Operating Conditions Test Results db Bandwidth Measurement Limits of 6 db Bandwidth Measurement Test Setup Test Instruments Test Procedure Deviation fromtest Standard EUT Operating Conditions Test Result Occupied Bandwidth Measurement Test Setup Test Instruments Test Procedure Deviation from Test Standard EUT Operating Conditions Test Results Conducted Output Power Measurement Limits of Conducted Output Power Measurement Test Setup Test Instruments Test Procedures Deviation from Test Standard EUT Operating Conditions Test Results Report No.: RF170922C07 Page No. 2 / 69 Report Format Version: 6.1.1

3 4.6 Power Spectral Density Measurement Limits of Power Spectral Density Measurement Test Setup Test Procedure Deviation from Test Standard EUT Operating Condition Test Results Conducted Out of Band Emission Measurement Limits of Conducted Out of Band Emission Measurement Test Setup Test Instruments Test Procedure Deviation from Test Standard EUT Operating Condition Test Results Pictures of Test Arrangements Appendix Information on the Testing Laboratories Report No.: RF170922C07 Page No. 3 / 69 Report Format Version: 6.1.1

4 Release Control Record Issue No. Description Date Issued RF170922C07 Original Release Nov. 29, 2017 Report No.: RF170922C07 Page No. 4 / 69 Report Format Version: 6.1.1

5 1 Certificate of Conformity Product: VoLTE& LTE Router Brand: WondaLink Test Model: WRT3061 Sample Status: Identical Prototype Applicant: WondaLink Inc. Test Date: Oct. 11, 2017 ~ Oct. 17, 2017 Standards: 47 CFR FCC Part 15, Subpart C (Section ) ANSI C63.10:2013 The above equipment has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the sample s EMC characteristics under the conditions specified in this report. Prepared by :, Date: Nov. 29, 2017 Gina Liu / Specialist Approved by :, Date: Nov. 29, 2017 Dylan Chiou / Project Engineer Report No.: RF170922C07 Page No. 5 / 69 Report Format Version: 6.1.1

6 2 Summary of Test Results 47 CFR FCC Part 15, Subpart C (Section ) FCC Clause Test Item Result Remarks AC Power Conducted Emission Pass Meet the requirement of limit. Minimum passing margin is db at MHz / / (d) Radiated Emissions and Band Edge Measurement Pass Meet the requirement of limit. Minimum passing margin is db at 4824 MHz (d) Port Emission Pass Meet the requirement of limit (a)(2) 6 db Bandwidth Pass Meet the requirement of limit. --- Occupied Bandwidth Measurement Pass Reference only (b) Conducted power Pass Meet the requirement of limit (e) Power Spectral Density Pass Meet the requirement of limit Requirement Pass No antenna connector is used. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT: The listed uncertainties are the worst case uncertainty for the entire range of measurement. Please note that the uncertainty values are provided for informational purposes only and are not used in determining the PASS/FAIL results. Measurement Frequency Expended Uncertainty (k=2) (±) Conducted Emissions at mains ports 150 khz ~ 30 MHz 2.44 db Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz 30 MHz ~ 200 MHz 2.93 db 200 MHz ~1000 MHz 2.95 db 1 GHz ~ 18 GHz 2.26 db 18 GHz ~ 40 GHz 1.94 db 2.2 Modification Record There were no modifications required for compliance. Report No.: RF170922C07 Page No. 6 / 69 Report Format Version: 6.1.1

7 3 General Information 3.1 General Description of EUT Product Brand Test Model Status of EUT Power Supply Rating Modulation Type Modulation Technology Transfer Rate Operating Frequency Number of Channel Output Power Type Connector Accessory Device Data Cable Supplied Test Tool Version VoLTE& LTE Router WondaLink WRT3061 Identical Prototype 12 Vdc (adapter) 7.4 Vdc (Li-ion battery) CCK, DQPSK, DBPSK for DSSS 64QAM, 16QAM, QPSK, BPSK for OFDM DSSS, OFDM b: 11.0 / 5.5 / 2.0 / 1.0 Mbps g: 54.0 / 48.0 / 36.0 / 24.0 / 18.0 / 12.0 / 9.0 / 6.0 Mbps n: up to MCS ~ 2462 MHz 11 for b, g, n (HT20) 7 for n (HT40) mw PCB antenna with 3.93 dbi gain N/A Refer to Note as below Refer to Note as below QDART_CONN.WIN.1.0 Installer Note: 1. The EUT incorporates a MIMO function. Physically, the EUT provides three completed transmitters and three receivers. Modulation Mode Tx Function b 1TX g 3TX n (HT20) 3TX n (HT40) 3TX * The modulation and bandwidth are similar for n mode for HT20 / HT4, therefore investigated worst case to representative mode in test report. (Final test mode refer section 3.2.1) 2. The EUT contains following accessory devices. Product Brand Model Description Adapter TUE KSAS M2 I/P: Vac, 50/60 Hz, 1.2 A O/P: 12 Vdc, 3.5 A 1.45m non-shielded cable w/o core Battery Coppercell CP6000-TE 7.4 Vdc, 5800 mah 3. The above EUT information is declared by manufacturer and for more detailed features description, please refer to the manufacturer's specifications or user's manual. Report No.: RF170922C07 Page No. 7 / 69 Report Format Version: 6.1.1

8 3.2 Description of Test Modes 11 channels are provided for b, g and n (HT20): Channel Frequency Channel Frequency channels are provided for n (HT40): Channel Frequency Channel Frequency Report No.: RF170922C07 Page No. 8 / 69 Report Format Version: 6.1.1

9 3.2.1 Test Mode Applicability and Tested Channel Detail EUT Configure Mode Applicable To RE 1G RE<1G PLC APCM Description - - Where RE 1G: Radiated Emission above 1 GHz RE<1G: Radiated Emission below 1 GHz PLC: Power Line Conducted Emission APCM: Port Conducted Measurement NOTE: The EUT had been pre-tested on the positioned of each 3 axis. The worst case was found when positioned on Z-plane. NOTE: - means no effect. Radiated Emission Test (Above 1 GHz): Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. EUT Configure Mode Mode Available Channel Tested Channel Modulation Technology Modulation Type Data Rate (Mbps) b 1 to 11 1, 6, 11 DSSS DBPSK g 1 to 11 1, 6, 11 OFDM BPSK n (HT20) 1 to 11 1, 6, 11 OFDM BPSK MCS n (HT40) 3 to 9 3, 6, 9 OFDM BPSK MCS0 Radiated Emission Test (Below 1 GHz): Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. EUT Configure Mode Mode Available Channel Tested Channel Modulation Technology Modulation Type Data Rate (Mbps) b 1 to 11 1 DSSS DBPSK 1.0 Power Line Conducted Emission Test: Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. EUT Configure Mode Mode Available Channel Tested Channel Modulation Technology Modulation Type Data Rate (Mbps) b 1 to 11 1 DSSS DBPSK 1.0 Report No.: RF170922C07 Page No. 9 / 69 Report Format Version: 6.1.1

10 Bandedge Measurement: Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. EUT Configure Mode Mode Available Channel Tested Channel Modulation Technology Modulation Type Data Rate (Mbps) b 1 to 11 1, 11 DSSS DBPSK g 1 to 11 1, 11 OFDM BPSK n (HT20) 1 to 11 1, 11 OFDM BPSK MCS n (HT40) 3 to 9 3, 9 OFDM BPSK MCS0 Port Conducted Measurement: This item includes all test value of each mode, but only includes spectrum plot of worst value of each mode. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. EUT Configure Mode Mode Available Channel Tested Channel Modulation Technology Modulation Type Data Rate (Mbps) b 1 to 11 1, 6, 11 DSSS DBPSK g 1 to 11 1, 6, 11 OFDM BPSK n (HT20) 1 to 11 1, 6, 11 OFDM BPSK MCS n (HT40) 3 to 9 3, 6, 9 OFDM BPSK MCS0 Test Condition: Applicable To Environmental Conditions Input Power Tested by RE 1G 25 deg. C, 65 % RH 120 Vac, 60 Hz Getaz Yang RE<1G 25 deg. C, 65 % RH 120 Vac, 60 Hz Gavin Wu PLC 25 deg. C, 65 % RH 120 Vac, 60 Hz Getaz Yang APCM 25 deg. C, 65 % RH 7.4 Vdc Gavin Wu Report No.: RF170922C07 Page No. 10 / 69 Report Format Version: 6.1.1

11 3.3 Duty Cycle of Test Signal b: Duty cycle of test signal is 100 % g: Duty cycle = 2.061/2.132 = 0.967, Duty factor = 10 * log(1/0.967) = n (HT20): Duty cycle = / = 0.986, Duty factor = 10 * log(1/0.986) = n (HT40): Duty cycle = 2.424/2.499 = 0.97, Duty factor = 10 * log( 1/0.97) = b g n (HT20) n (HT40) Report No.: RF170922C07 Page No. 11 / 69 Report Format Version: 6.1.1

12 3.4 Description of Support Units The EUT has been tested as an independent unit together with other necessary accessories or support units Configuration of System under Test EUT (Power from AC Adapter) *Test Table 3.5 General Description of Applied Standards The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards: FCC Part 15, Subpart C (15.247) D01 DTS Meas Guidance v D01 Multiple Transmitter Output v02r01 ANSI C All test items have been performed and recorded as per the above standards. NOTE: The EUT has been verified to comply with the requirements of FCC Part 15, Subpart B, Class B (DoC). The test report has been issued separately. Report No.: RF170922C07 Page No. 12 / 69 Report Format Version: 6.1.1

13 4 Test Types and Results 4.1 Radiated Emission and Bandedge Measurement Limits of Radiated Emission and Bandedge Measurement Radiated emissions which fall in the restricted bands must comply with the radiated emission limits specified as below table. Other emissions shall be at least 20 db below the highest level of the desired power: NOTE: Frequencies Field Strength (microvolts/meter) Measurement Distance (meters) ~ /F (khz) ~ /F (khz) ~ ~ ~ ~ Above The lower limit shall apply at the transition frequencies. 2. Emission level = 20 log Emission level (uv/m). 3. For frequencies above 1000 MHz, the field strength limits are based on average detector, however, the peak field strength of any emission shall not exceed the maximum permitted average limits, specified above by more than 20 db under any condition of modulation. Report No.: RF170922C07 Page No. 13 / 69 Report Format Version: 6.1.1

14 4.1.2 Test Instruments Description & Manaufacturer Test Receiver Agilent Spectrum Analyzer Agilent Spectrum Analyzer ROHDE & SCHWARZ BILOG SCHWARZBECK HORN SCHWARZBECK HORN SCHWARZBECK Fixed Attenuator Mini-Circuits Model No. Serial No. Date of Calibration Due Date of Calibration N9038A MY Feb. 17, 2017 Feb. 16, 2018 N9010A MY Dec. 16, 2016 Dec. 15, 2017 FSU Dec. 13, 2016 Dec. 12, 2017 VULB Dec. 26, 2016 Dec. 27, 2017 BBHA 9120 D 9120D-969 Dec. 12, 2016 Dec. 13, 2017 BBHA Dec. 14, 2016 Dec. 13, 2017 MDCS18N-10 MDCS18N Apr. 17, 2017 Apr. 16, 2018 Loop HLA May 19, 2017 May 18, 2018 Preamplifier EMCI EMC Nov. 01, 2017 Oct. 31, 2018 Bluetooth Tester CBT Jul. 29, 2016 Jul. 28, 2018 Preamplifier EMCI Preamplifier EMCI Preamplifier EMCI Power Meter Anritsu Power Sensor Anritsu RF signal cable HUBER+SUHNNER RF signal cable HUBER+SUHNNER RF Coaxial Cable Worken Software BV ADT Tower MF Turn Table MF Tower &Turn Table Controller MF EMC Oct. 20, 2017 Oct. 18, 2018 EMC Oct. 20, 2017 Oct. 18, 2018 EMC 330H Oct. 13, 2017 Oct. 12, 2018 ML2495A Aug. 15, 2017 Aug. 14, 2018 MA2411B Aug. 15, 2017 Aug. 14, 2018 SUCOFLEX / Oct. 20, 2017 Oct. 19, 2018 SUCOFLEX /4 Oct. 20, 2017 Oct. 19, D-FB Cable-Ch10-01 Oct. 20, 2017 Oct. 19, 2018 E NA NA NA MFA-440H NA NA NA MFT-201SS NA NA NA MF-7802 NA NA NA Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Chamber The horn antenna and preamplifier (model: EMC ) are used only for the measurement of emission frequency above 1 GHz if tested. 4. The IC Site Registration No. is IC7450F-10. Report No.: RF170922C07 Page No. 14 / 69 Report Format Version: 6.1.1

15 4.1.3 Test Procedures a. The EUT was placed on the top of a rotating table 0.8 meters (for below 1 GHz) / 1.5 meters (for above 1 GHz) above the ground at 3 meter chamber room for test. The table was rotated 360 degrees to determine the position of the highest radiation. b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower. c. The height of antenna is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. e. The test-receiver system was set to quasi-peak detect function and specified bandwidth with maximum hold mode when the test frequency is below 1 GHz. f. The test-receiver system was set to peak and average detected function and specified bandwidth with maximum hold mode when the test frequency is above 1 GHz. If the peak reading value also meets average limit, measurement with the average detector is unnecessary. Note: 1. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120 khz & 360 KHz for Quasi-peak detection (QP) at frequency below 1 GHz. 2. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 3 MHz for Peak detection (PK) at frequency above 1 GHz. 3. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 1/T for Average (Duty cycle < 98 %) detection at frequency above 1 GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 10 Hz (Duty cycle 98 %) for Average detection (AV) at frequency above 1 GHz. 5. All modes of operation were investigated and the worst-case emissions are reported Deviation from Test Standard No deviation. Report No.: RF170922C07 Page No. 15 / 69 Report Format Version: 6.1.1

16 4.1.5 Test Set Up <Radiated emission below 30 MHz> 1 m EUT& Support Units 3m Turn Table 80cm Ground Plane Test Receiver <Frequency Range below 1 GHz> EUT& Support Units 3m 10m Ant. Tower 1-4m Variable Turn Table 80cm Ground Plane Test Receiver Report No.: RF170922C07 Page No. 16 / 69 Report Format Version: 6.1.1

17 <Frequency Range above 1 GHz> EUT& Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo) EUT Operating Conditions a. Placed the EUT on a testing table. b. Use the software to control the EUT under transmission condition continuously at specific channel frequency. Report No.: RF170922C07 Page No. 17 / 69 Report Format Version: 6.1.1

18 4.1.7 Test Results Above 1 GHz Data: b EUT Test Condition Measurement Detail Channel Channel 1 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 18 / 69 Report Format Version: 6.1.1

19 EUT Test Condition Measurement Detail Channel Channel 6 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 19 / 69 Report Format Version: 6.1.1

20 EUT Test Condition Measurement Detail Channel Channel 11 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 20 / 69 Report Format Version: 6.1.1

21 802.11g EUT Test Condition Measurement Detail Channel Channel 1 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 21 / 69 Report Format Version: 6.1.1

22 EUT Test Condition Measurement Detail Channel Channel 6 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 22 / 69 Report Format Version: 6.1.1

23 EUT Test Condition Measurement Detail Channel Channel 11 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 23 / 69 Report Format Version: 6.1.1

24 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 1 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 24 / 69 Report Format Version: 6.1.1

25 EUT Test Condition Measurement Detail Channel Channel 6 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 25 / 69 Report Format Version: 6.1.1

26 EUT Test Condition Measurement Detail Channel Channel 11 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 26 / 69 Report Format Version: 6.1.1

27 802.11n (HT40) EUT Test Condition Measurement Detail Channel Channel 3 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 27 / 69 Report Format Version: 6.1.1

28 EUT Test Condition Measurement Detail Channel Channel 6 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 28 / 69 Report Format Version: 6.1.1

29 EUT Test Condition Measurement Detail Channel Channel 9 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Average (AV) 25 deg. C, 65 % RH Tested By Getaz Yang Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Average Peak Average Peak Average Peak Average Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value MHz: Fundamental frequency. Report No.: RF170922C07 Page No. 29 / 69 Report Format Version: 6.1.1

30 9 khz ~ 30 MHz Data: The amplitude of spurious emissions attenuated more than 20 db below the permissible value is not required to be report. 30 MHz ~ 1 GHz Worst-Case Data: b EUT Test Condition Measurement Detail Channel Channel 1 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Environmental Conditions Peak (PK) Quasi-peak (QP) 25 deg. C, 65 % RH Tested By Gavin Wu Frequency Emission Read (dbuv) l Polarity & Test Distance: Horizontal at 3 m Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark QP Peak Peak Peak Peak Peak l Polarity & Test Distance: Vertical at 3 m Frequency Emission Read (dbuv) Limit Margin (db/m) Cable Loss Preamp Height (cm) Table Angle (Degree) Remark Peak Peak Peak Peak Peak Peak Remarks: 1. Emission = Read + + Cable Loss - Preamp Margin value = Emission level Limit value Report No.: RF170922C07 Page No. 30 / 69 Report Format Version: 6.1.1

31 4.2 Conducted Emission Measurement Limits of Conducted Emission Measurement Frequency Quasi-peak Conducted Limit (dbuv) Average Note: 1. The lower limit shall apply at the transition frequencies. 2. The limit decreases in line with the logarithm of the frequency in the range of 0.15 to 0.50 MHz Test Instruments Description & Manaufacturer Test Receiver ROHDE & SCHWARZ RF signal cable (with 10dB PAD) Woken LISN/AMN ROHDE & SCHWARZ (EUT) LISN/AMN ROHDE & SCHWARZ (Peripheral) Software ADT Model No. Serial No. Date of Calibration Due Date of Calibration ESCS Aug. 17, 2017 Aug. 16, D-FB Cable-cond1-01 Sep. 05, 2017 Sep. 04, 2018 ESH3-Z /001 Mar. 10, 2017 Mar. 09, 2018 ENV Apr. 20, 2017 Apr. 19, 2018 BV ADT_Cond_ V NA NA NA Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Shielded Room The VCCI Site Registration No. is C Report No.: RF170922C07 Page No. 31 / 69 Report Format Version: 6.1.1

32 4.2.3 Test Procedures a. The EUT was placed 0.4 meters from the conducting wall of the shielded room with EUT being connected to the power mains through a line impedance stabilization network (LISN). Other support units were connected to the power mains through another LISN. The two LISNs provide 50 ohm/50 uh of coupling impedance for the measuring instrument. b. Both lines of the power mains connected to the EUT were checked for maximum conducted interference. c. The frequency range from 150 khz to 30 MHz was searched. Emission levels under (Limit 20 db) was not recorded. NOTE: All modes of operation were investigated and the worst-case emissions are reported Deviation from Test Standard No deviation Test Setup Vertical Ground Reference Plane Test Receiver 40cm EUT 80cm LISN Horizontal Ground Reference Plane Note: 1.Support units were connected to second LISN. For the actual test configuration, please refer to the attached file (Test Setup Photo) EUT Operating Conditions a. Placed the EUT on a testing table. b. Use the software to control the EUT under transmission condition continuously at specific channel frequency. Report No.: RF170922C07 Page No. 32 / 69 Report Format Version: 6.1.1

33 4.2.7 Test Results Frequency Range Input Power 150kHz ~ 30MHz 120Vac, 60Hz Detector Function & Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) / Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/11/22 Phase Of Power : Line (L) Frequency Correction Reading Value Emission Limit Margin No (dbuv) (dbuv) (dbuv) Q.P. AV. Q.P. AV. Q.P. AV. Q.P. AV Remarks: 1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission = Correction + Reading Value Report No.: RF170922C07 Page No. 33 / 69 Report Format Version: 6.1.1

34 Frequency Range Input Power 150kHz ~ 30MHz 120Vac, 60Hz Detector Function & Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) / Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/11/22 Phase Of Power : Neutral (N) Frequency Correction Reading Value Emission Limit Margin No (dbuv) (dbuv) (dbuv) Q.P. AV. Q.P. AV. Q.P. AV. Q.P. AV Remarks: 1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission = Correction + Reading Value Report No.: RF170922C07 Page No. 34 / 69 Report Format Version: 6.1.1

35 4.3 6 db Bandwidth Measurement Limits of 6 db Bandwidth Measurement The minimum of 6 db Bandwidth Measurement is 0.5 MHz Test Setup EUT Attenuator Spectrum Analyzer Test Instruments Refer to section to get information of above instrument Test Procedure a. Set resolution bandwidth (RBW) = 100 khz b. Set the video bandwidth (VBW) 3 x RBW, Detector = Peak. c. Trace mode = max hold. d. Sweep = auto couple. e. Measure the maximum width of the emission that is constrained by the frequencies associated with the two amplitude points (upper and lower) that are attenuated by 6 db relative to the maximum level measured in the fundamental emission Deviation fromtest Standard No deviation EUT Operating Conditions The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF170922C07 Page No. 35 / 69 Report Format Version: 6.1.1

36 4.3.7 Test Result b Channel Frequency 6 db Bandwidth Minimum Limit Pass / Fail Pass Pass Pass g Channel Frequency 6 db Bandwidth Minimum Limit Chain 0 Chain 1 Chain 2 Pass / Fail Pass Pass Pass n (HT20) Channel Frequency 6 db Bandwidth Minimum Limit Chain 0 Chain 1 Chain 2 Pass / Fail Pass Pass Pass n (HT40) Channel Frequency 6 db Bandwidth Minimum Limit Chain 0 Chain 1 Chain 2 Pass / Fail Pass Pass Pass Report No.: RF170922C07 Page No. 36 / 69 Report Format Version: 6.1.1

37 Spectrum Plot of Worst Value b g n (HT20) n (HT40) Report No.: RF170922C07 Page No. 37 / 69 Report Format Version: 6.1.1

38 4.4 Occupied Bandwidth Measurement Test Setup EUT Attenuator Spectrum Analyzer Test Instruments Refer to section to get information of above instrument Test Procedure The transmitter output was connected to the spectrum analyzer through an attenuator. The bandwidth of the fundamental frequency was measured by spectrum analyzer with resolution bandwidth in the range of 1 % to 5 % of the anticipated emission bandwidth, and a video bandwidth at least 3x the resolution bandwidth and set the detector to PEAK. The width of a frequency band such that, below the lower and above the upper frequency limits, the mean powers emitted are each equal to a specified percentage 0.5 % of the total mean power of a given emission Deviation from Test Standard No deviation EUT Operating Conditions The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF170922C07 Page No. 38 / 69 Report Format Version: 6.1.1

39 4.4.6 Test Results b Channel Frequency Occupied Bandwidth Pass / Fail Pass Pass Pass g Channel Frequency Occupied Bandwidth Chain 0 Chain 1 Chain 2 Pass / Fail Pass Pass Pass n (HT20) Channel Frequency Occupied Bandwidth Chain 0 Chain 1 Chain 2 Pass / Fail Pass Pass Pass n (HT40) Channel Frequency Occupied Bandwidth Chain 0 Chain 1 Chain 2 Pass / Fail Pass Pass Pass Report No.: RF170922C07 Page No. 39 / 69 Report Format Version: 6.1.1

40 Spectrum Plot of Worst Value b g n (HT20) n (HT40) Report No.: RF170922C07 Page No. 40 / 69 Report Format Version: 6.1.1

41 4.5 Conducted Output Power Measurement Limits of Conducted Output Power Measurement For systems using digital modulation in the MHz bands: 1 Watt (30 dbm) Per KDB D01 Multiple Transmitter Output Method of conducted output power measurement on IEEE devices, Array Gain = 0 db (i.e., no array gain) for NANT 4; Array Gain = 0 db (i.e., no array gain) for channel widths 40 MHz for any NANT; Array Gain = 5 log(nant/nss) db or 3 db, whichever is less for 20 MHz channel widths with NANT 5. For power measurements on all other devices: Array Gain = 10 log(nant/nss) db Test Setup EUT Power Sensor Power Meter Attenuator Test Instruments Refer to section to get information of above instrument Test Procedures A peak power sensor was used on the output port of the EUT. A power meter was used to read the response of the peak power sensor. Record the power level Deviation from Test Standard No deviation EUT Operating Conditions The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF170922C07 Page No. 41 / 69 Report Format Version: 6.1.1

42 4.5.7 Test Results b Channel Frequency Peak Power (mw) Peak Power (dbm) Limit (dbm) Pass / Fail Pass Pass Pass g Channel Frequency Peak Power (dbm) Chain 0 Chain 1 Chain 2 Total Power (mw) Total Power (dbm) Limit (dbm) Pass / Fail Pass Pass Pass n (HT20) Channel Frequency Peak Power (dbm) Chain 0 Chain 1 Chain 2 Total Power (mw) Total Power (dbm) Limit (dbm) Pass / Fail Pass Pass Pass n (HT40) Channel Frequency Peak Power (dbm) Chain 0 Chain 1 Chain 2 Total Power (mw) Total Power (dbm) Limit (dbm) Pass / Fail Pass Pass Pass Report No.: RF170922C07 Page No. 42 / 69 Report Format Version: 6.1.1