FCC RADIO TEST REPORT

Transcription

1 SPORTO International Inc. o. 52, Hwa Ya 1st Rd., Hwa Ya Technology Park, Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C. Ph: / FAX: / FCC RADIO TEST REPORT Applicant s company Ubiquiti etworks, Inc. Applicant Address 2580 Orchard Parkway San Jose, CA FCC ID SWX-UAPACHD Manufacturer s company Ubiquiti etworks, Inc. Manufacturer Address 2580 Orchard Parkway San Jose, CA Product ame Brand ame Model o. UniFi Access Point UBIQUITI UAP-AC-SHD, UAP-AC-HD Test Rule Part(s) 47 CFR FCC Part 15 Subpart E Test Freq. Range 5150 ~ 5250MHz / 5725 ~ 5850 MHz Received Date Jun. 17, 2016 Final Test Date ov. 04, 2016 Submission Type Original Equipment Statement Test result included is for the IEEE n and IEEE a/ac of the product. The test result in this report refers exclusively to the presented test model / sample. Without written approval of SPORTO International Inc., the test report shall not be reproduced except in full. The measurements and test results shown in this test report were made in accordance with the procedures and found in compliance with the limit given in ASI C , 47 CFR FCC Part 15 Subpart E, KDB D02 v01r03, KDB D01 v02r01, KDB D03 v01, ET Docket o ; FCC The test equipment used to perform the test is calibrated and traceable to ML/ROC. Report Format Version: Rev. 02

2 Table of Contents 1. VERIFICATIO OF COMPLIACE SUMMARY OF THE TEST RESULT GEERAL IFORMATIO Product Details Accessories Table for Filed Antenna Table for Carrier Frequencies Table for MHz Mode Table for Test Modes Table for Testing Locations Table for Multiple Listing Table for Supporting Units Table for Parameters of Test Software Setting EUT Operation during Test Duty Cycle Test Configurations TEST RESULT AC Power Line Conducted Emissions Measurement dB Bandwidth and 99% Occupied Bandwidth Measurement dB Spectrum Bandwidth Measurement Maximum Conducted Output Power Measurement Power Spectral Density Measurement Radiated Emissions Measurement Band Edge Emissions Measurement Frequency Stability Measurement Antenna Requirements LIST OF MEASURIG EQUIPMETS MEASUREMET UCERTAITY APPEDIX A. TEST PHOTOS... A1 ~ A4 APPEDIX B. MAXIMUM E.I.R.P AT AY ELEVATIO AGLE ABOVE 30 DEGREES... B1 ~ B2 Report Format Version: Rev. 02 Page o. : i of ii FCC ID: SWX-UAPACHD Issued Date :ov. 14, 2016

3 History of This Test Report REPORT O. VERSIO DESCRIPTIO ISSUED DATE FR AB Rev. 01 Initial issue of report ov. 09, 2016 FR AB Rev. 02 Adding a Model ame: UAP-AC-SHD ov. 14, / MHz MHz /50/ MHz 5250 MHz MHz 5.15~5.25 GHz GHz GHz 47 CFR FCC Part 15 Subpart E Ant. A + Ant. B Further, this requirement does not apply to intentional radiators that must be professionally installed. Report Format Version: Rev. 02 Page o. : ii of ii FCC ID: SWX-UAPACHD Issued Date :ov. 14, 2016

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5 2. SUMMARY OF THE TEST RESULT Applied Standard: 47 CFR FCC Part 15 Subpart E Part Rule Section Description of Test Result AC Power Line Conducted Emissions Complies (a) 26dB Spectrum Bandwidth and 99% Occupied Bandwidth Complies (e) 6dB Spectrum Bandwidth Complies (a) Maximum Conducted Output Power Complies (a) Power Spectral Density Complies (b) Radiated Emissions Complies (b) Band Edge Emissions Complies (g) Frequency Stability Complies Antenna Requirements Complies Report Format Version: Rev. 02 Page o. : 2 of 213

6 3. GEERAL IFORMATIO 3.1. Product Details Items Description Product Type WLA (4TX, 4RX) Radio Type Intentional Transceiver Power Type From PoE Modulation IEEE a: OFDM IEEE n/ac: see the below table Data Modulation IEEE a/n: OFDM (BPSK / QPSK / 16QAM / 64QAM) IEEE ac: OFDM (BPSK / QPSK / 16QAM / 64QAM / 256QAM) Data Rate (Mbps) IEEE a: OFDM (6/9/12/18/24/36/48/54) IEEE n/ac: see the below table Frequency Range 5150 ~ 5250MHz / 5725 ~ 5850 MHz Channel umber 9 for 20MHz bandwidth ; 4 for 40MHz bandwidth 2 for 80MHz bandwidth Channel Bandwidth (99%) For non-beamforming mode For indoor use master B1 and indoor, outdoor use B4 U-II-1: IEEE a: MHz IEEE ac MCS0/ss1 (VHT20): MHz IEEE ac MCS0/ss1 (VHT40): MHz IEEE ac MCS0/ss1 (VHT80): MHz U-II-3: IEEE a: MHz IEEE ac MCS0/ss1 (VHT20): MHz IEEE ac MCS0/ss1 (VHT40): MHz IEEE ac MCS0/ss1 (VHT80): MHz For indoor use slave without radar detection B1 U-II-1: IEEE a: MHz IEEE ac MCS0/ss1 (VHT20): MHz IEEE ac MCS0/ss1 (VHT40): MHz IEEE ac MCS0/ss1 (VHT80): MHz For outdoor use master B1 U-II-1: IEEE a: MHz IEEE ac MCS0/ss1 (VHT20): MHz Report Format Version: Rev. 02 Page o. : 3 of 213

7 IEEE ac MCS0/ss1 (VHT40): MHz IEEE ac MCS0/ss1 (VHT80): MHz For indoor use master U-II-1: IEEE ac MCS0/ss2 (VHT80+80): MHz U-II-3: IEEE ac MCS0/ss2 (VHT80+80): MHz For indoor use slave without radar detection U-II-1: IEEE ac MCS0/ss2 (VHT80+80): MHz U-II-3: IEEE ac MCS0/ss2 (VHT80+80): MHz For outdoor use master U-II-1: IEEE ac MCS0/ss2 (VHT80+80): MHz U-II-3: IEEE ac MCS0/ss2 (VHT80+80): MHz For beamforming mode For indoor use master B1 and indoor, outdoor use B4 U-II-1: IEEE ac MCS0/ss1 (VHT20): MHz IEEE ac MCS0/ss1 (VHT40): MHz IEEE ac MCS0/ss1 (VHT80): MHz U-II-3: IEEE ac MCS0/ss1 (VHT20): MHz IEEE ac MCS0/ss1 (VHT40): MHz IEEE ac MCS0/ss1 (VHT80): MHz For indoor use slave without radar detection B1 U-II-1: IEEE ac MCS0/ss1 (VHT20): MHz IEEE ac MCS0/ss1 (VHT40): MHz IEEE ac MCS0/ss1 (VHT80): MHz For outdoor use master B1 U-II-1: IEEE ac MCS0/ss1 (VHT20): MHz IEEE ac MCS0/ss1 (VHT40): MHz IEEE ac MCS0/ss1 (VHT80): MHz For indoor use master Report Format Version: Rev. 02 Page o. : 4 of 213

8 Maximum Conducted Output Power U-II-1: IEEE ac MCS0/ss2 (VHT80+80): MHz U-II-3: IEEE ac MCS0/ss2 (VHT80+80): MHz For indoor use slave without radar detection U-II-1: IEEE ac MCS0/ss2 (VHT80+80): MHz U-II-3: IEEE ac MCS0/ss2 (VHT80+80): MHz For outdoor use master U-II-1: IEEE ac MCS0/ss2 (VHT80+80): MHz U-II-3: IEEE ac MCS0/ss2 (VHT80+80): MHz For on-beamforming mode For indoor use master B1 and indoor, outdoor use B4 U-II-1: IEEE a: dbm IEEE ac MCS0/ss1 (VHT20): dbm IEEE ac MCS0/ss1 (VHT40): dbm IEEE ac MCS0/ss1 (VHT80): dbm U-II-3: IEEE a: dbm IEEE ac MCS0/ss1 (VHT20): dbm IEEE ac MCS0/ss1 (VHT40): dbm IEEE ac MCS0/ss1 (VHT80): dbm For indoor use slave without radar detection B1 U-II-1: IEEE a: dbm IEEE ac MCS0/ss1 (VHT20): dbm IEEE ac MCS0/ss1 (VHT40): dbm IEEE ac MCS0/ss1 (VHT80): dbm For outdoor use master B1 U-II-1: IEEE a: dbm IEEE ac MCS0/ss1 (VHT20): dbm IEEE ac MCS0/ss1 (VHT40): dbm IEEE ac MCS0/ss1 (VHT80): dbm Report Format Version: Rev. 02 Page o. : 5 of 213

9 For indoor use master U-II-1: IEEE ac MCS0/ss2 (VHT80+80): dbm U-II-3: IEEE ac MCS0/ss2 (VHT80+80): dbm For indoor use slave without radar detection U-II-1: IEEE ac MCS0/ss2 (VHT80+80): dbm U-II-3: IEEE ac MCS0/ss2 (VHT80+80): dbm For outdoor use master U-II-1: IEEE ac MCS0/ss2 (VHT80+80): dbm U-II-3: IEEE ac MCS0/ss2 (VHT80+80): dbm For beamforming mode For indoor use master B1 and indoor, outdoor use B4 U-II-1: IEEE ac MCS0/ss1 (VHT20): dbm IEEE ac MCS0/ss1 (VHT40): dbm IEEE ac MCS0/ss1 (VHT80): dbm U-II-3: IEEE ac MCS0/ss1 (VHT20): dbm IEEE ac MCS0/ss1 (VHT40): dbm IEEE ac MCS0/ss1 (VHT80): dbm For indoor use slave without radar detection B1 U-II-1: IEEE ac MCS0/ss1 (VHT20): dbm IEEE ac MCS0/ss1 (VHT40): dbm IEEE ac MCS0/ss1 (VHT80): dbm For outdoor use master B1 U-II-1: IEEE ac MCS0/ss1 (VHT20): 8.65 dbm IEEE ac MCS0/ss1 (VHT40): 8.46 dbm IEEE ac MCS0/ss1 (VHT80): 8.33 dbm For indoor use master U-II-1: IEEE ac MCS0/ss2 (VHT80+80): dbm Report Format Version: Rev. 02 Page o. : 6 of 213

10 U-II-3: IEEE ac MCS0/ss2 (VHT80+80): dbm For indoor use slave without radar detection U-II-1: IEEE ac MCS0/ss2 (VHT80+80): dbm U-II-3: IEEE ac MCS0/ss2 (VHT80+80): dbm For outdoor use master U-II-1: IEEE ac MCS0/ss2 (VHT80+80): dbm U-II-3: IEEE ac MCS0/ss2 (VHT80+80): dbm Carrier Frequencies Please refer to section 3.4 Antenna Please refer to section 3.3 Items Description Communication Mode IP Based (Load Based) Frame Based Beamforming Function With beamforming Without beamforming ote: The EUT has beamforming function for n/ac. Antenna and Bandwidth Antenna Four (TX) Bandwidth Mode 20 MHz 40 MHz 80 MHz IEEE a V X X IEEE n V V X IEEE ac V V V Report Format Version: Rev. 02 Page o. : 7 of 213

11 IEEE 11n/ac Spec. Protocol umber of Transmit Chains (TX) Data Rate / MCS n (HT20) 4 MCS n (HT40) 4 MCS ac (VHT20) 4 MCS 0-9/ss ac (VHT40) 4 MCS 0-9/ss ac (VHT80) 4 MCS 0-9/ss1-4 ote 1: IEEE Std n modulation consists of HT20 and HT40 (HT: High Throughput). Then EUT supports HT20 and HT40. ote 2: IEEE Std ac modulation consists of VHT20, VHT40, VHT80 and VHT160 (VHT: Very High Throughput). Then EUT supports VHT20, VHT40 and VHT80. ote 3: Modulation modes consist of below configuration: HT20/HT40: IEEE n, VHT20/VHT40/VHT80: IEEE ac 3.2. Accessories Support Unit Brand Model Rating PoE UBIQUITI GP-H G Power cable*1, on-shielded, 0.6m Others Input: V~50/60Hz, MAX 0.75A(0.75A) Output: 48V, 0.5A(0.5A) Report Format Version: Rev. 02 Page o. : 8 of 213

12 3.3. Table for Filed Antenna For 2.4GHz WLA function Ant. Brand Model ame Antenna Type Connector TX/RX Gain (dbi) PIFA Antenna /A PIFA Antenna /A 3 For 5GHz WLA function Ant. Brand Model ame Antenna Type Connector TX/RX Gain (dbi) PIFA Antenna /A PIFA Antenna /A 4 For Bluetooth function Ant. Brand Model ame Antenna Type Connector TX/RX Gain (dbi) PIFA Antenna /A 1 For RX function RX Gain (dbi) Ant. Brand Model ame Antenna Type Connector 2.4GHz 5GHz PIFA Antenna /A 1 2 ote: The EUT has six antennas. For 2.4GHz WLA function IEEE b/g/n/ac mode (4TX/4RX): Chain 1 and Chain 2 connect to Ant. 1. Chain 3 and Chain 4 connect to Ant. 2. Chain 1, Chain 2, Chain 3 and Chain 4 can be used as transmitting/receiving antenna. Chain 1, Chain 2, Chain 3 and Chain 4 could transmit/receive simultaneously. For 5GHz WLA function IEEE a/n/ac mode (4TX/4RX): The module has four chains. Chain 1 and Chain 2 connect to Ant. 3. Chain 3 and Chain 4 connect to Ant. 4. Chain 1, Chain 2, Chain 3 and Chain 4 can be used as transmitting/receiving antenna. Chain 1, Chain 2, Chain 3 and Chain 4 could transmit/receive simultaneously. For Bluetooth function: The module has one chain only. Chain 1 connects to Ant. 5. Chain 1 can be used as transmitting/receiving antenna. Chain 1 could transmit/receive simultaneously. For RX function: The module has one chain only. Chain 1 connects to Ant. 6. Only Chain 1 can be used as receiving antenna. Report Format Version: Rev. 02 Page o. : 9 of 213

13 3.4. Table for Carrier Frequencies There are three bandwidth systems. For 20MHz bandwidth systems, use Channel 36, 40, 44, 48, 149, 153, 157, 161, 165. For 40MHz bandwidth systems, use Channel 38, 46, 151, 159. For 80MHz bandwidth systems, use Channel 42, 155. Frequency Band Channel o. Frequency Channel o. Frequency MHz MHz 5150~5250 MHz MHz MHz U-II MHz MHz MHz MHz MHz 5725~5850 MHz MHz MHz U-II MHz MHz MHz MHz 3.5. Table for MHz Mode Type Channel o. Frequency MHz ote: The EUT supports on-beamforming mode and beamforming mode. Report Format Version: Rev. 02 Page o. : 10 of 213

14 3.6. Table for Test Modes Preliminary tests were performed in different data rate to find the worst radiated emission. The data rate shown in the table below is the worst-case rate with respect to the specific test item. Investigation has been done on all the possible configurations for searching the worst cases. The following table is a list of the test modes shown in this test report. Test Items Mode Data Rate Channel Chain AC Power Conducted Emission CTX Max. Conducted Output Power For non-beamforming mode For B1 indoor use master and B4 indoor, outdoor use 11a/BPSK U-II-1& 6Mbps 36/40/48/149/ U-II-3 157/165 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& U-II-3 MCS0/ss1 42/ For B1 indoor use slave without radar detection, B1 outdoor use master 11a/BPSK U-II-1 6Mbps 36/40/ ac VHT20 U-II-1 MCS0/ss1 36/40/ ac VHT40 U-II-1 MCS0/ss1 38/ ac VHT80 U-II-1 MCS0/ss For beamforming mode For B1 indoor use master and B4 indoor, outdoor use master 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& U-II-3 MCS0/ss1 42/ For B1 indoor use slave without radar detection, B1 outdoor use master 11ac VHT20 U-II-1 MCS0/ss1 36/40/ ac VHT40 U-II-1 MCS0/ss1 38/ ac VHT80 U-II-1 MCS0/ss Report Format Version: Rev. 02 Page o. : 11 of 213

15 Power Spectral Density For non-beamforming mode For B1 indoor use master and B4 indoor, outdoor use 11a/BPSK U-II-1& 6Mbps 36/40/48//149/ U-II-3 157/165 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& U-II-3 MCS0/ss1 42/ For B1 indoor use slave without radar detection, B1 outdoor use master 11a/BPSK U-II-1 6Mbps 36/40/ ac VHT20 U-II-1 MCS0/ss1 36/40/ ac VHT40 U-II-1 MCS0/ss1 38/ ac VHT80 U-II-1 MCS0/ss For beamforming mode For B1 indoor use master and B4 indoor, outdoor use master 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& U-II-3 MCS0/ss1 42/ For B1 indoor use slave without radar detection, B1 outdoor use master 11ac VHT20 U-II-1 MCS0/ss1 36/40/ ac VHT40 U-II-1 MCS0/ss1 38/ ac VHT80 U-II-1 MCS0/ss Report Format Version: Rev. 02 Page o. : 12 of 213

16 26dB Spectrum Bandwidth & 99% Occupied Bandwidth Measurement 6dB Spectrum Bandwidth Measurement For non-beamforming mode For B1 indoor use master and B4 indoor, outdoor use 11a/BPSK U-II-1& 6Mbps 36/40/48/149/ U-II-3 157/165 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& U-II-3 MCS0/ss1 42/ For B1 indoor use slave without radar detection, B1 outdoor use master 11a/BPSK U-II-1 6Mbps 36/40/ ac VHT20 U-II-1 MCS0/ss1 36/40/ ac VHT40 U-II-1 MCS0/ss1 38/ ac VHT80 U-II-1 MCS0/ss For beamforming mode For B1 indoor use master and B4 indoor, outdoor use master 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& U-II-3 MCS0/ss1 42/ For B1 indoor use slave without radar detection, B1 outdoor use master 11ac VHT20 U-II-1 MCS0/ss1 36/40/ ac VHT40 U-II-1 MCS0/ss1 38/ ac VHT80 U-II-1 MCS0/ss For non-beamforming mode 11a/BPSK U-II-3 6Mbps 149/157/ ac VHT20 U-II-3 MCS0/ss1 149/157/ ac VHT40 U-II-3 MCS0/ss1 151/ ac VHT80 U-II-3 MCS0/ss For beamforming mode 11ac VHT20 U-II-3 MCS0/ss1 149/157/ ac VHT40 U-II-3 MCS0/ss1 151/ ac VHT80 U-II-3 MCS0/ss Report Format Version: Rev. 02 Page o. : 13 of 213

17 Radiated Emission Below 1GHz CTX Radiated Emission Above 1GHz Band Edge Emission For non-beamforming mode 11a/BPSK U-II-1& 6Mbps 36/40/48/149/ U-II-3 157/165 11ac VHT20 U-II-1& MCS0/ss1 36/40/48//149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& U-II-3 MCS0/ss1 42/ For beamforming mode 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& U-II-3 MCS0/ss1 38/46/151/ ac VHT80 U-II-1& MCS0/ss1 42/ U-II-3 For non-beamforming mode 11a/BPSK U-II-1& 6Mbps 36/40/48/149/ U-II-3 157/165 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& MCS0/ss1 42/ U-II-3 For beamforming mode 11ac VHT20 U-II-1& MCS0/ss1 36/40/48/149/ U-II-3 157/165 11ac VHT40 U-II-1& MCS0/ss1 38/46/151/ U-II-3 11ac VHT80 U-II-1& MCS0/ss1 42/ U-II-3 Report Format Version: Rev. 02 Page o. : 14 of 213

18 Frequency Stability 20 MHz U-II-1& - 40/157 1 U-II-3 40 MHz U-II-1& U-II-3-38/ MHz U-II-1& U-II-3-42/155 1 ote 1: VHT20/VHT40 covers HT20/HT40, due to same modulation. The power setting for n HT20 and HT40 are the same or lower than ac VHT20 and VHT40. ote 2: There are two modes of EUT, one is beamforming mode, and the other is non-beamforming mode for n/ac. All test results were recorded in the report. ote 3: The EUT supports P to M and P to P operating mode. After evaluating, the P to M is the worst operating mode. And it was tested and recorded in the report ac MCS0/ss2 VHT80+80 Test Items Mode Data Rate Type Channel Chain Max. Conducted Output Power 11ac U-II-1& MCS0/ss2 For indoor use master Power Spectral Density VHT80+80 U-II dB Spectrum Bandwidth & % Occupied Bandwidth Measurement For indoor use slave without Radiated Emission Above 1GHz Band Edge Emission radar detection, outdoor use master B dB Spectrum Bandwidth 11ac U-II-3 MCS0/ss2 For indoor use master Measurement VHT For indoor use slave without radar detection, outdoor use master B ote: The EUT supports beamforming mode supports type 1 for master and slave without radar detection. The test mode as above, the type of slave without radar detection and outdoor master has been covered by indoor master. Report Format Version: Rev. 02 Page o. : 15 of 213

19 The following test modes were performed for all tests: For Conducted Emission test: Mode 1. CTX - 2.4GHz Mode 2. CTX - 5GHz Mode 3. CTX - Bluetooth Mode 1 generated the worst test result, so it was recorded in this report. For Radiated Emission test (Below 1GHz): Mode 1. CTX - 5GHz at Z-axis Mode 2. CTX - 5GHz at Y-axis Mode 2 has been evaluated to be the worst case among Mode 1~2, thus measurement for Mode 3 ~ 4 will follow this same test mode. Mode 3. CTX - 2.4GHz at Y-axis Mode 4. CTX - Bluetooth at Y-axis Mode 2 generated the worst test result, so it was recorded in this report. For Radiated Emission test (Above 1GHz): The EUT can be placed in Y-axis and Z-axis. After evaluating, The worst case was found at Z-axis, so it's recorded in this report. Mode 1. CTX at Z-axis For Co-location MPE Test: The EUT could be applied with 2.4GHz WLA function, 5GHz WLA function and Bluetooth function; therefore Co-location Maximum Permissible Exposure (Please refer to FA ) tests are added for simultaneously transmit between 2.4GHz WLA function, 5GHz WLA function and Bluetooth function Table for Testing Locations Address: Test Site Location o.8, Lane 724, Bo-ai St., Jhubei City, Hsinchu County 302, Taiwan, R.O.C. TEL: FAX: Test Site o. Site Category Location FCC Designation o. IC File o. VCCI Reg. o 03CH01-CB SAC Hsin Chu TW0006 IC 4086D - CO02-CB Conduction Hsin Chu TW0006 IC 4086D - TH01-CB OVE Room Hsin Chu Open Area Test Site (OATS); Semi Anechoic Chamber (SAC). Report Format Version: Rev. 02 Page o. : 16 of 213

20 3.8. Table for Multiple Listing The model names as below Brand ame Model ame 2.4GHz/5GHz 2.4GHz/5GHz WLA function RX function Bluetooth function UBIQUITI UAP-AC-SHD O O O UAP-AC-HD O X X ote: The Model UAP-AC-SHD was selected to test and recorded in the report Table for Supporting Units For Test Site o: CO02-CB Support Unit Brand Model FCC ID B DELL E6430 DoC For Test Site o: 03CH01-CB <For below 1GHz test and above 1GHz test non-beamforming mode> Support Unit Brand Model FCC ID B DELL E4300 DoC <For above 1GHz test beamforming mode> Support Unit Brand Model FCC ID B*2 DELL E4300 DoC RX Device UBIQUITI UAP-AC-HD SWX-UAPACHD For Test Site o: TH01-CB Support Unit Brand Model FCC ID B DELL E4300 DoC Report Format Version: Rev. 02 Page o. : 17 of 213

21 3.10. Table for Parameters of Test Software Setting During testing, Channel and Power Controlling Software provided by the customer was used to control the operating channel as well as the output power level. The RF output power selection is for the setting of RF output power expected by the customer and is going to be fixed on the firmware of the final end product. For non-beamforming mode For indoor use master B1 and indoor, outdoor use B4 Test Software Version QCA v Test Frequency (MHz) Mode CB: 20MHz 5180 MHz 5200 MHz 5240 MHz 5745 MHz 5785 MHz 5825 MHz a ac MCS0/ss1 VHT Mode ac MCS0/ss1 VHT40 Mode ac MCS0/ss1 VHT80 CB: 40MHz 5190 MHz 5230 MHz 5755 MHz 5795 MHz CB: 80MHz 5210 MHz 5775 MHz Report Format Version: Rev. 02 Page o. : 18 of 213

22 For indoor use slave without radar detection B1 Test Software Version Mode QCA v Test Frequency (MHz) CB: 20MHz 5180 MHz 5200 MHz 5240 MHz a ac MCS0/ss1 VHT Mode ac MCS0/ss1 VHT40 Mode ac MCS0/ss1 VHT80 CB: 40MHz 5190 MHz 5230 MHz CB: 80MHz 5210 MHz 11.5 For outdoor use master B1 Test Software Version Mode QCA v Test Frequency (MHz) CB: 20MHz 5180 MHz 5200 MHz 5240 MHz a ac MCS0/ss1 VHT Mode ac MCS0/ss1 VHT40 Mode ac MCS0/ss1 VHT80 CB: 40MHz 5190 MHz 5230 MHz CB: 80MHz 5210 MHz 6.5 Report Format Version: Rev. 02 Page o. : 19 of 213

23 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection. Test Software Version QCA v Mode CB: 80MHz+80MHz ac MCS0/ss2 VHT80+80 Type MHz 13.5 For outdoor use master B1 Test Software Version Mode ac MCS0/ss2 VHT80+80 QCA v CB: 80MHz+80MHz Type MHz 9.5 Report Format Version: Rev. 02 Page o. : 20 of 213

24 For beamforming mode For indoor use master B1 and indoor, outdoor use B4 Test Software Version Mode QCA v Test Frequency (MHz) CB: 20MHz 5180 MHz 5200 MHz 5240 MHz 5745 MHz 5785 MHz 5825 MHz ac MCS0/ss1 VHT Mode ac MCS0/ss1 VHT40 Mode ac MCS0/ss1 VHT80 CB: 40MHz 5190 MHz 5230 MHz 5755 MHz 5795 MHz CB: 80MHz 5210 MHz 5775 MHz For indoor use slave without radar detection B1 Test Software Version Mode QCA v Test Frequency (MHz) CB: 20MHz 5180 MHz 5200 MHz 5240 MHz ac MCS0/ss1 VHT Mode ac MCS0/ss1 VHT40 Mode ac MCS0/ss1 VHT80 CB: 40MHz 5190 MHz 5230 MHz CB: 80MHz 5210 MHz 16.5 Report Format Version: Rev. 02 Page o. : 21 of 213

25 For outdoor use master B1 Test Software Version Mode QCA v Test Frequency (MHz) CB: 20MHz 5180 MHz 5200 MHz 5240 MHz ac MCS0/ss1 VHT Mode ac MCS0/ss1 VHT40 Mode ac MCS0/ss1 VHT80 CB: 40MHz 5190 MHz 5230 MHz CB: 80MHz 5210 MHz ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Test Software Version Mode ac MCS0/ss2 VHT80+80 QCA v CB: 80MHz+80MHz Type MHz 21 For outdoor use master B1 Test Software Version Mode ac MCS0/ss2 VHT80+80 QCA CB: 80MHz+80MHz Type MHz 14 Report Format Version: Rev. 02 Page o. : 22 of 213

26 3.11. EUT Operation during Test For non-beamforming mode: The EUT was programmed to be in continuously transmitting mode. For beamforming mode: For Conducted Mode: The EUT was programmed to be in continuously transmitting mode. For Radiated Mode: During the test, the following programs under WI 7 were executed. The program was executed as follows: 1. During the test, the EUT operation to normal function. 2. Executed command fixed test channel under Telnet. 3. Executed "Lantest.exe " to link with the remote workstation to receive and transmit packet by RX Deviec and transmit duty cycle no less 98% Duty Cycle For non-beamforming mode: Mode On Time On+Off Time Duty Cycle Duty Factor 1/T Min. VBW (ms) (ms) (%) (db) (khz) a ac MCS0/ss1 VHT ac MCS0/ss1 VHT ac MCS0/ss1 VHT ac MCS0/ss2 VHT For beamforming mode: Mode On Time On+Off Time Duty Cycle Duty Factor 1/T Min. VBW (ms) (ms) (%) (db) (khz) ac MCS0/ss1 VHT ac MCS0/ss1 VHT ac MCS0/ss1 VHT ac MCS0/ss2 VHT Report Format Version: Rev. 02 Page o. : 23 of 213

27 3.13. Test Configurations AC Power Line Conduction Emissions Test Configuration Item Connection Shielded Length 1 Power cable o 0.6m 2 RJ-45 cable o 10m 3 RJ-45 cable o 1m Report Format Version: Rev. 02 Page o. : 24 of 213

28 Radiation Emissions Test Configuration Test Configuration: 30MHz ~1GHz and above 1GHz test non-beamforming mode Item Connection Shielded Length 1 RJ-45 cable o 10m 2 RJ-45 cable o 1.5m 3 Power cable o 0.6m Report Format Version: Rev. 02 Page o. : 25 of 213

29 Test Configuration: above 1GHz beamforming mode Item Connection Shielded Length 1 RJ-45 cable o 10m 2 RJ-45 cable o 1.5m 3 Power cable o 0.6m 4 RJ-45 cable o 1.5m Report Format Version: Rev. 02 Page o. : 26 of 213

30 4. TEST RESULT 4.1. AC Power Line Conducted Emissions Measurement Limit For this product that is designed to connect to the AC power line, the radio frequency voltage that is conducted back onto the AC power line on any frequency or frequencies within the band 150 khz to 30 MHz shall not exceed below limits table. Frequency (MHz) QP Limit (dbuv) AV Limit (dbuv) 0.15~0.5 66~56 56~46 0.5~ ~ Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the receiver. Receiver Parameters Attenuation Start Frequency Stop Frequency IF Bandwidth Setting 10 db 0.15 MHz 30 MHz 9 khz Test Procedures 1. Configure the EUT according to ASI C The EUT or host of EUT has to be placed 0.4 meter far from the conducting wall of the shielding room and at least 80 centimeters from any other grounded conducting surface. 2. Connect EUT or host of EUT to the power mains through a line impedance stabilization network (LIS). 3. All the support units are connected to the other LISs. The LIS should provide 50uH/50ohms coupling impedance. 4. The frequency range from 150 khz to 30 MHz was searched. 5. Set the test-receiver system to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. 6. The measurement has to be done between each power line and ground at the power terminal. Report Format Version: Rev. 02 Page o. : 27 of 213

31 Test Setup Layout LEGED: (1) Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 to 40 cm long. (2) I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m. (3) EUT connected to one LIS. Unused LIS measuring port connectors shall be terminated in 50 Ω. LIS can be placed on top of, or immediately beneath, reference ground plane. (3.1) All other equipment powered from additional LIS(s). (3.2) Multiple outlet strip can be used for multiple power cords of non-eut equipment. (3.3) LIS at least 80 cm from nearest part of EUT chassis. (4) Cables of hand-operated devices, such as keyboards, mice, etc., shall be placed as for normal use. (5) on-eut components of EUT system being tested. (6) Rear of EUT, including peripherals, shall all be aligned and flush with rear of tabletop. (7) Rear of tabletop shall be 40 cm removed from a vertical conducting plane that is bonded to the ground plane Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was placed on the test table and programmed in normal function. Report Format Version: Rev. 02 Page o. : 28 of 213

32 Results of AC Power Line Conducted Emissions Measurement Temperature 22 Humidity 52% Test Engineer Ryo Fan/Edison Lin Phase Line Configuration CTX Test Mode Mode 1 Report Format Version: Rev. 02 Page o. : 29 of 213

33 Temperature 22 Humidity 52% Test Engineer Ryo Fan/Edison Lin Phase eutral Configuration CTX Test Mode Mode 1 ote: Level = Read Level + LIS Factor + Cable Loss. Report Format Version: Rev. 02 Page o. : 30 of 213

34 dB Bandwidth and 99% Occupied Bandwidth Measurement Limit o restriction limits Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. 26dB Bandwidth Spectrum Parameters Setting Attenuation Auto Span Frequency > 26dB Bandwidth RBW Approximately 1% of the emission bandwidth VBW VBW > RBW Detector Peak Trace Max Hold Sweep Time Auto 99% Occupied Bandwidth Spectrum Parameters Setting Span 1.5 times to 5.0 times the OBW RBW 1 % to 5 % of the OBW VBW 3 x RBW Detector Peak Trace Max Hold Test Procedures For Radiated 26dB Bandwidth and 99% Occupied Bandwidth Measurement: 1. The transmitter was radiated to the spectrum analyzer in peak hold mode. 2. Measure the maximum width of the emission that is 26 db down from the peak 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% Test Setup Layout For Radiated 26dB Bandwidth and 99% Occupied Bandwidth Measurement: This test setup layout is the same as that shown in section Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: Rev. 02 Page o. : 31 of 213

35 Test Result of 26dB Bandwidth and 99% Occupied Bandwidth Temperature 22 Humidity 54% Test Engineer Gary Chu For non-beamforming mode For indoor use master B1 and indoor, outdoor use B4 Mode Frequency 26dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) 5180 MHz MHz a 5240 MHz MHz MHz MHz MHz MHz ac 5240 MHz MCS0/ss1 VHT MHz MHz MHz MHz ac 5230 MHz MCS0/ss1 VHT MHz MHz ac 5210 MHz MCS0/ss1 VHT MHz Report Format Version: Rev. 02 Page o. : 32 of 213

36 For indoor use slave without radar detection B1 Mode Frequency 26dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) 5180 MHz a 5200 MHz MHz MHz ac 5200 MHz MCS0/ss1 VHT MHz ac 5190 MHz MCS0/ss1 VHT MHz ac MCS0/ss1 VHT MHz For outdoor use master B1 Mode Frequency 26dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) 5180 MHz a 5200 MHz MHz MHz ac 5200 MHz MCS0/ss1 VHT MHz ac 5190 MHz MCS0/ss1 VHT MHz ac MCS0/ss1 VHT MHz Report Format Version: Rev. 02 Page o. : 33 of 213

37 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type Frequency 26dB BW (MHz) 99% OBW (MHz) 26dB Total BW (MHz) MHz MHz For outdoor use master B1 Type Frequency 26dB BW (MHz) 99% OBW (MHz) 26dB Total BW (MHz) MHz MHz Report Format Version: Rev. 02 Page o. : 34 of 213

38 For beamforming mode For indoor use master B1 and indoor, outdoor use B4 Mode Frequency 26dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) 5180 MHz MHz ac 5240 MHz MCS0/ss1 VHT MHz MHz MHz MHz ac 5230 MHz MCS0/ss1 VHT MHz MHz ac 5210 MHz MCS0/ss1 VHT MHz For indoor use slave without radar detection B1 Mode Frequency 26dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) 5180 MHz ac 5200 MHz MCS0/ss1 VHT MHz ac 5190 MHz MCS0/ss1 VHT MHz ac MCS0/ss1 VHT MHz For outdoor use master B1 Mode Frequency 26dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) 5180 MHz ac 5200 MHz MCS0/ss1 VHT MHz ac 5190 MHz MCS0/ss1 VHT MHz ac MCS0/ss1 VHT MHz Report Format Version: Rev. 02 Page o. : 35 of 213

39 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type Frequency 26dB BW (MHz) 99% OBW (MHz) 26dB Total BW (MHz) MHz MHz For outdoor use master B1 Type Frequency 26dB BW (MHz) 99% OBW (MHz) 26dB Total BW (MHz) MHz MHz Report Format Version: Rev. 02 Page o. : 36 of 213

40 For non-beamforming mode For indoor use master B1 and indoor, outdoor use B4 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Report Format Version: Rev. 02 Page o. : 37 of 213

41 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5745 MHz Report Format Version: Rev. 02 Page o. : 38 of 213

42 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5785 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5825 MHz Report Format Version: Rev. 02 Page o. : 39 of 213

43 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Report Format Version: Rev. 02 Page o. : 40 of 213

44 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5745 MHz Report Format Version: Rev. 02 Page o. : 41 of 213

45 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5785 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5825 MHz Report Format Version: Rev. 02 Page o. : 42 of 213

46 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5190 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz Report Format Version: Rev. 02 Page o. : 43 of 213

47 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5755 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5795 MHz Report Format Version: Rev. 02 Page o. : 44 of 213

48 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 45 of 213

49 For indoor use slave without radar detection B1 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Report Format Version: Rev. 02 Page o. : 46 of 213

50 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz Report Format Version: Rev. 02 Page o. : 47 of 213

51 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz Report Format Version: Rev. 02 Page o. : 48 of 213

52 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5190 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz Report Format Version: Rev. 02 Page o. : 49 of 213

53 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Report Format Version: Rev. 02 Page o. : 50 of 213

54 For outdoor use master B1 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Report Format Version: Rev. 02 Page o. : 51 of 213

55 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz Report Format Version: Rev. 02 Page o. : 52 of 213

56 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz Report Format Version: Rev. 02 Page o. : 53 of 213

57 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5190 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz Report Format Version: Rev. 02 Page o. : 54 of 213

58 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Report Format Version: Rev. 02 Page o. : 55 of 213

59 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type 1 26dB Bandwidth and 99% Occupied Bandwidth Plot on Chain 1 + Chain 2 / 5210 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 56 of 213

60 For outdoor use master B1 Type 1 26dB Bandwidth and 99% Occupied Bandwidth Plot on Chain 1 + Chain 2 / 5210 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 57 of 213

61 For beamforming mode For indoor use master B1 and indoor, outdoor use B4 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Report Format Version: Rev. 02 Page o. : 58 of 213

62 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5745 MHz Report Format Version: Rev. 02 Page o. : 59 of 213

63 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5785 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5825 MHz Report Format Version: Rev. 02 Page o. : 60 of 213

64 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5190 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz Report Format Version: Rev. 02 Page o. : 61 of 213

65 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5755 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5795 MHz Report Format Version: Rev. 02 Page o. : 62 of 213

66 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 63 of 213

67 For indoor use slave without radar detection B1 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Report Format Version: Rev. 02 Page o. : 64 of 213

68 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5190 MHz Report Format Version: Rev. 02 Page o. : 65 of 213

69 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Report Format Version: Rev. 02 Page o. : 66 of 213

70 For outdoor use master B1 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Report Format Version: Rev. 02 Page o. : 67 of 213

71 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5190 MHz Report Format Version: Rev. 02 Page o. : 68 of 213

72 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Report Format Version: Rev. 02 Page o. : 69 of 213

73 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type 1 26dB Bandwidth and 99% Occupied Bandwidth Plot on Chain 1 + Chain 2 / 5210 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 70 of 213

74 For outdoor use master B1 Type 1 26dB Bandwidth and 99% Occupied Bandwidth Plot on Chain 1 + Chain 2 / 5210 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 71 of 213

75 4.3. 6dB Spectrum Bandwidth Measurement Limit For digital modulation systems, the minimum 6dB bandwidth shall be at least 500 khz Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of spectrum analyzer. 6dB Spectrum Bandwidth Spectrum Parameters Setting Attenuation Auto Span Frequency > 6dB Bandwidth RBW 100kHz VBW 3 x RBW Detector Peak Trace Max Hold Sweep Time Auto Test Procedures For Radiated 6dB Bandwidth Measurement: 1. The transmitter was radiated to the spectrum analyzer in peak hold mode. 2. Test was performed in accordance with KDB D02 v01r03 for Compliance Testing of Unlicensed ational Information Infrastructure (U-II) Devices - section (C) Emission Bandwidth. 3. Multiple antenna system was performed in accordance with KDB D01 v02r01 Emissions Testing of Transmitters with Multiple Outputs in the Same Band. 4. Measured the spectrum width with power higher than 6dB below carrier Test Setup Layout For Radiated 6dB Bandwidth Measurement: This test setup layout is the same as that shown in section Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: Rev. 02 Page o. : 72 of 213

76 Test Result of 6dB Spectrum Bandwidth Temperature 22 Humidity 54% Test Engineer Gary Chu For non-beamforming mode For indoor, outdoor use master and slave without radar detection Mode Frequency 6dB Bandwidth (MHz) Min. Limit (khz) Test Result 5745 MHz Complies a 5785 MHz Complies 5825 MHz Complies ac 5745 MHz Complies MCS0/ss MHz Complies VHT MHz Complies ac MCS0/ss1 VHT MHz 5795 MHz Complies Complies ac MCS0/ss1 VHT MHz Complies ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type Frequency 6dB BW (MHz) Min. Limit (khz) Test Result MHz MHz Complies For outdoor use master B1 Type Frequency 6dB BW (MHz) Min. Limit (khz) Test Result MHz MHz Complies Report Format Version: Rev. 02 Page o. : 73 of 213

77 For beamforming mode For indoor, outdoor use master and slave without radar detection Mode Frequency 6dB Bandwidth (MHz) Min. Limit (khz) Test Result ac 5745 MHz Complies MCS0/ss MHz Complies VHT MHz Complies ac MCS0/ss1 VHT MHz 5795 MHz Complies Complies ac MCS0/ss1 VHT MHz Complies ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type Frequency 6dB BW (MHz) Min. Limit (khz) Test Result MHz MHz Complies For outdoor use master B1 Type Frequency 6dB BW (MHz) Min. Limit (khz) Test Result 5210 MHz MHz Complies ote: All the test values were listed in the report. For plots, only the channel with worse result was shown. Report Format Version: Rev. 02 Page o. : 74 of 213

78 For non-beamforming mode For indoor, outdoor use master and slave without radar detection 6 db Bandwidth Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5785 MHz 6 db Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5785 MHz Report Format Version: Rev. 02 Page o. : 75 of 213

79 6 db Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5795 MHz 6 db Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 76 of 213

80 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type 1 6 db Bandwidth Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 77 of 213

81 For outdoor use master B1 Type 1 6 db Bandwidth Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 78 of 213

82 For beamforming mode For indoor, outdoor use master and slave without radar detection 6 db Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5825 MHz 6 db Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5795 MHz Report Format Version: Rev. 02 Page o. : 79 of 213

83 6 db Bandwidth Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 80 of 213

84 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type 1 6 db Bandwidth Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 81 of 213

85 For outdoor use master B1 Type 1 6 db Bandwidth Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 82 of 213

86 4.4. Maximum Conducted Output Power Measurement Limit Frequency Band 5.15~5.25 GHz Operating Mode Outdoor access point Indoor access point Fixed point-to-point access points Client devices Limit The maximum conducted output power over the frequency band of operation shall not exceed 1 W (30dBm) provided the maximum antenna gain does not exceed 6 dbi. If transmitting antennas of directional gain greater than 6 dbi are used, both the maximum conducted output power and the maximum power spectral density shall be reduced by the amount in db that the directional gain of the antenna exceeds 6 dbi. The maximum e.i.r.p. at any elevation angle above 30 degrees as measured from the horizon must not exceed 125 mw (21 dbm). The maximum conducted output power over the frequency band of operation shall not exceed 1 W (30dBm) provided the maximum antenna gain does not exceed 6 dbi. If transmitting antennas of directional gain greater than 6 dbi are used, both the maximum conducted output power and the maximum power spectral density shall be reduced by the amount in db that the directional gain of the antenna exceeds 6 dbi. The maximum conducted output power over the frequency band of operation shall not exceed 1 W (30dBm). Fixed point-to-point U-II devices may employ antennas with directional gain up to 23 dbi without any corresponding reduction in the maximum conducted output power or maximum power spectral density. For fixed point-to-point transmitters that employ a directional antenna gain greater than 23 dbi, a 1 db reduction in maximum conducted output power and maximum power spectral density is required for each 1 db of antenna gain in excess of 23 dbi. The maximum conducted output power over the frequency band of operation shall not exceed 250 mw (24dBm) provided the maximum antenna gain does not exceed 6 dbi. If transmitting antennas of directional gain greater than 6 dbi are used, both the maximum conducted output power and the maximum power spectral density shall be reduced by the amount in db that the directional gain of the antenna exceeds 6 dbi. Report Format Version: Rev. 02 Page o. : 83 of 213

87 5.725~5.85 GHz The maximum conducted output power over the frequency band of operation shall not exceed 1 W (30dBm). If transmitting antennas of directional gain greater than 6 dbi are used, both the maximum conducted output power and the maximum power spectral density shall be reduced by the amount in db that the directional gain of the antenna exceeds 6 dbi. However, fixed point-to-point U-II devices operating in this band may employ transmitting antennas with directional gain greater than 6 dbi without any corresponding reduction in transmitter conducted power Measuring Instruments and Setting For other channel Please refer to section 5 of equipments list in this report. The following table is the setting of the power meter. Power Meter Parameter Detector For straddle channel Setting AVERAGE Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Attenuation Span Frequency RBW VBW Detector Setting Auto Encompass the entire emissions bandwidth (EBW) of the signal 1000 khz 3000 khz RMS Trace Average Sweep count 100 Sweep Time Auto Report Format Version: Rev. 02 Page o. : 84 of 213

88 Test Procedures 1. The transmitter output (antenna port) was connected to the power meter. 2. Test was performed in accordance with KDB D02 v01r03 for Compliance Testing of Unlicensed ational Information Infrastructure (U-II) Devices - section (E) Maximum conducted output power =>3. Measurement using a Power Meter (PM) =>b) Method PM-G (Measurement using a gated RF average power meter). 3. Multiple antenna systems was performed in accordance with KDB D01 v02r01 Emissions Testing of Transmitters with Multiple Outputs in the Same Band. 4. When measuring maximum conducted output power with multiple antenna systems,add every result of the values by mathematic formula Test Setup Layout Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: Rev. 02 Page o. : 85 of 213

89 Test Result of Maximum Conducted Output Power Temperature 22 Humidity 54% Test Engineer Gary Chu For non-beamforming mode For indoor use master B1 and indoor, outdoor use B4 Mode Frequency Conducted Power (dbm) Max. Limit Chain 1 Chain 2 Chain 3 Chain 4 Total (dbm) Result 5180 MHz Complies 5200 MHz Complies a 5240 MHz Complies 5745 MHz Complies 5785 MHz Complies 5825 MHz Complies 5180 MHz Complies 5200 MHz Complies ac 5240 MHz Complies MCS0/ss MHz Complies VHT MHz Complies 5825 MHz Complies 5190 MHz Complies ac 5230 MHz Complies MCS0/ss MHz Complies VHT MHz Complies ac 5210 MHz Complies MCS0/ss1 VHT MHz Complies Report Format Version: Rev. 02 Page o. : 86 of 213

90 For indoor use slave without radar detection B1 Mode Frequency Conducted Power (dbm) Max. Limit Chain 1 Chain 2 Chain 3 Chain 4 Total (dbm) Result 5180 MHz Complies a 5200 MHz Complies 5240 MHz Complies ac 5180 MHz Complies MCS0/ss MHz Complies VHT MHz Complies ac MCS0/ss1 VHT MHz 5230 MHz Complies Complies ac MCS0/ss1 VHT MHz Complies For outdoor use master B1 Mode Frequency Conducted Power (dbm) Max. Limit Chain 1 Chain 2 Chain 3 Chain 4 Total (dbm) Result 5180 MHz Complies a 5200 MHz Complies 5240 MHz Complies ac 5180 MHz Complies MCS0/ss MHz Complies VHT MHz Complies ac MCS0/ss1 VHT MHz 5230 MHz Complies Complies ac MCS0/ss1 VHT MHz Complies Report Format Version: Rev. 02 Page o. : 87 of 213

91 802.11ac MCS0/ss2 VHT80+80 For indoor use master Conducted Power (dbm) Max. Limit Type Frequency Result Chain 1 Chain 2 Chain 3 Chain 4 Total (dbm) 5210 MHz Complies MHz Complies For indoor use slave without radar detection B1 Type 1 Frequency Conducted Power (dbm) Max. Limit Chain 1 Chain 2 Chain 3 Chain 4 Total (dbm) Result 5210 MHz Complies 5775 MHz Complies For outdoor use master B1 Type 1 Frequency Conducted Power (dbm) Max. Limit Chain 1 Chain 2 Chain 3 Chain 4 Total (dbm) Result 5210 MHz Complies 5775 MHz Complies Report Format Version: Rev. 02 Page o. : 88 of 213

92 For beamforming mode For indoor use master B1 and indoor, outdoor use B4 Mode ac MCS0/ss1 VHT ac MCS0/ss1 VHT40 Frequency Conducted Power (dbm) Chain 1 Chain 2 Chain 3 Chain 4 Total Max. Limit (dbm) Result 5180 MHz Complies 5200 MHz Complies 5240 MHz Complies 5745 MHz Complies 5785 MHz Complies 5825 MHz Complies 5190 MHz Complies 5230 MHz Complies 5755 MHz Complies 5795 MHz Complies ac MCS0/ss1 VHT MHz 5775 MHz Complies Complies 2 SS AT g j, k ote: j 1 k 1 =10.02dBi>6dBi, so B1 B4 limit =30-( )=25.98dBm. DirectionalGain 10 log AT Report Format Version: Rev. 02 Page o. : 89 of 213

93 For indoor use slave without radar detection B1 Mode ac MCS0/ss1 Frequency Conducted Power (dbm) Chain 1 Chain 2 Chain 3 Chain 4 Total Max. Limit (dbm) Result 5180 MHz Complies 5200 MHz Complies VHT MHz Complies ac MCS0/ss1 VHT ac MCS0/ss1 VHT MHz Complies 5230 MHz Complies 5210 MHz Complies ote: DirectionalGain 10 log For outdoor use master B1 Mode ac MCS0/ss1 Frequency k SS AT j 1 1 g AT j, k 2 =10.02dBi>6dBi, so limit =23.98-( )=19.96dBm. Conducted Power (dbm) Chain 1 Chain 2 Chain 3 Chain 4 Total Max. Limit (dbm) Result 5180 MHz Complies 5200 MHz Complies VHT MHz Complies ac MCS0/ss1 VHT ac MCS0/ss1 VHT MHz Complies 5230 MHz Complies 5210 MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k =10.02dBi>6dBi, so limit =30-( )=25.98dBm. 2 Report Format Version: Rev. 02 Page o. : 90 of 213

94 802.11ac MCS0/ss2 VHT80+80 For indoor use master Type Frequency Conducted Power (dbm) Chain 1 Chain 2 Chain 3 Chain 4 Total Max. Limit (dbm) Result 5210 MHz Complies MHz Complies 2 SS AT g j, k ote: j 1 k 1 =7.01dBi>6dBi, so limit =30-(7.01-6)=28.99dBm. DirectionalGain 10 log AT For indoor use slave without radar detection B1 Type 1 Frequency Conducted Power (dbm) Chain 1 Chain 2 Chain 3 Chain 4 Total Max. Limit (dbm) Result 5210 MHz Complies 5775 MHz Complies ote: DirectionalGain 10 log ote: DirectionalGain 10 log For outdoor use master B1 Type 1 Frequency k SS AT j 1 1 k g AT SS AT j 1 1 g AT j, k j, k 2 2 =7.01dBi>6dBi, so limit =23.98-(7.01-6)=22.97dBm. =7.01dBi>6dBi, so limit =30-(7.01-6)=28.99dBm. Conducted Power (dbm) Chain 1 Chain 2 Chain 3 Chain 4 Total Max. Limit (dbm) Result 5210 MHz Complies 5775 MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k 2 =7.01dBi>6dBi, so limit =30-(7.01-6)=28.99dBm ote: All the test values were listed in the report. For plots, only the channel with worse result was shown. Report Format Version: Rev. 02 Page o. : 91 of 213

95 4.5. Power Spectral Density Measurement Limit The following table is power spectral density limits and decrease power density limit rule refer to section ~5.25 GHz Operating Mode Frequency Band Outdoor access point Indoor access point Fixed point-to-point access points Mobile and portable client devices 17 dbm/mhz 17 dbm/mhz 17 dbm/mhz 11 dbm/mhz 5.725~5.85 GHz 30 dbm/500khz Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Attenuation Span Frequency RBW VBW Detector Trace Sweep Time Setting Auto Limit Encompass the entire emissions bandwidth (EBW) of the signal 1000 khz 3000 khz RMS AVERAGE Auto Trace Average 100 times ote: If measurement bandwidth of Maximum PSD is specified in 500 khz, add 10log(500kHz/RBW) to the measured result, whereas RBW (< 500 khz) is the reduced resolution bandwidth of the spectrum analyzer set during measurement. Report Format Version: Rev. 02 Page o. : 92 of 213

96 Test Procedures 1. The transmitter output (antenna port) was connected RF switch to the spectrum analyzer. 2. Test was performed in accordance with KDB D02 v01r03 for Compliance Testing of Unlicensed ational Information Infrastructure (U-II) Devices - section (F) Maximum Power Spectral Density (PSD). 3. Multiple antenna systems was performed in accordance KDB D01 v02r01 in-band Power Spectral Density (PSD) Measurements and sum the spectra across the outputs. 4. For 5.725~5.85 GHz, the measured result of PSD level must add 10log(500kHz/RBW) and the final result should 30 dbm Test Setup Layout Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: Rev. 02 Page o. : 93 of 213

97 Test Result of Power Spectral Density Temperature 22 Humidity 54% Test Engineer Gary Chu For non-beamforming mode For indoor use master B1 and indoor, outdoor use B4 Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies 2 SS AT g j, k ote: j 1 k 1 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. DirectionalGain 10 log AT Channel Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k =10.02dBi, so B4 limit =30-( )=25.98dBm/500kHz. 2 Report Format Version: Rev. 02 Page o. : 94 of 213

98 Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k 2 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. Channel Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k =10.02dBi, so B4 limit =30-( )=25.98dBm/500kHz. 2 Report Format Version: Rev. 02 Page o. : 95 of 213

99 Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k 2 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. Channel Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Result MHz Complies MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k =10.02dBi, so B4 limit =30-( )=25.98dBm/500kHz. 2 Report Format Version: Rev. 02 Page o. : 96 of 213

100 Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k 2 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. Channel Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Result MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k =10.02dBi, so B4 limit =30-( )=25.98dBm/500kHz. 2 Report Format Version: Rev. 02 Page o. : 97 of 213

101 For indoor use slave without radar detection B1 Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so limit =11-( )=6.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so limit =11-( )=6.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so limit =11-( )=6.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k =10.02dBi, so limit =11-( )=6.98dBm/MHz. 2 Report Format Version: Rev. 02 Page o. : 98 of 213

102 For outdoor use master B1 Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k 2 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k 2 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k 2 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies ote: DirectionalGain 10 log k SS AT j 1 1 g AT j, k =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. 2 Report Format Version: Rev. 02 Page o. : 99 of 213

103 802.11ac MCS0/ss2 VHT80+80 For indoor use master Type Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Max. Limit (dbm/mhz) Result MHz Complies 5775 MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =7.01dBi, so limit=17-(7.01-6)=15.99dbm/mhz. 2 SS AT g j, k ote: j 1 k 1 DirectionalGain 10 log =7.01dBi, so limit =30-(7.01-6)=28.99dBm/500kHz. AT For indoor use slave without radar detection B1 Type Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Max. Limit (dbm/mhz) Result 1 ote: 5210 MHz Complies 5775 MHz Complies DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =7.01dBi, so limit=11-(7.01-6)=9.99dbm/mhz. 2 SS AT g j, k ote: j 1 k 1 DirectionalGain 10 log =7.01dBi, so limit =30-(7.01-6)=28.99dBm/500kHz. AT Report Format Version: Rev. 02 Page o. : 100 of 213

104 For outdoor use master B1 Type Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Max. Limit (dbm/mhz) Result 1 ote: 5210 MHz Complies 5775 MHz Complies DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =7.01dBi, so limit=17-(7.01-6)=15.99dbm/mhz. 2 SS AT g j, k ote: j 1 k 1 DirectionalGain 10 log =7.01dBi, so limit =30-(7.01-6)=28.99dBm/500kHz. AT Report Format Version: Rev. 02 Page o. : 101 of 213

105 For beamforming mode For indoor use master B1 and indoor, outdoor use B4 Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies 2 SS AT g j, k ote: j 1 k 1 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. DirectionalGain 10 log AT Channel Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k =10.02dBi, so B4 limit =30-( )=25.98dBm/500kHz. 2 Report Format Version: Rev. 02 Page o. : 102 of 213

106 Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. Channel Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Result MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so B4 limit =30-( )=25.98dBm/500kHz. Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so B1 limit =17-( )=12.98dBm/MHz. Channel Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Result MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k =10.02dBi, so B4 limit =30-( )=25.98dBm/500kHz. 2 Report Format Version: Rev. 02 Page o. : 103 of 213

107 For indoor use slave without radar detection B1 Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so limit =11-( )=6.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so limit =11-( )=6.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k =10.02dBi, so limit =11-( )=6.98dBm/MHz. 2 Report Format Version: Rev. 02 Page o. : 104 of 213

108 For outdoor use master B1 Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so limit =17-( )=12.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =10.02dBi, so limit =17-( )=12.98dBm/MHz. Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel Frequency Power Density (dbm/mhz) Max. Limit (dbm/mhz) Result MHz Complies ote: DirectionalGain 10 log SS AT j 1 g k 1 AT j, k =10.02dBi, so limit =17-( )=12.98dBm/MHz. 2 Report Format Version: Rev. 02 Page o. : 105 of 213

109 802.11ac MCS0/ss2 VHT80+80 For indoor use master Type Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Max. Limit (dbm/mhz) Result 1 ote: 5210 MHz Complies 5775 MHz Complies 2 SS AT g j, k j 1 k 1 =7.01dBi, so limit=17-(7.01-6)=15.99dbm/mhz. DirectionalGain 10 log AT 2 SS AT g j, k ote: j 1 k 1 DirectionalGain 10 log =7.01dBi, so limit =30-(7.01-6)=28.99dBm/500kHz. AT For indoor use slave without radar detection B1 Type Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Max. Limit (dbm/mhz) Result 1 ote: 5210 MHz Complies 5775 MHz Complies DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =7.01dBi, so limit=11-(7.01-6)=9.99dbm/mhz. 2 SS AT g j, k ote: j 1 k 1 DirectionalGain 10 log =7.01dBi, so limit =30-(7.01-6)=28.99dBm/500kHz. AT Report Format Version: Rev. 02 Page o. : 106 of 213

110 For outdoor use master B1 Type Frequency Power Density (dbm/mhz) 10log(500kHz/RBW) Factor (db) Power Density (dbm/500khz) Power Density Limit (dbm/500khz) Max. Limit (dbm/mhz) Result 1 ote: 5210 MHz Complies 5775 MHz Complies DirectionalGain 10 log SS AT j 1 g k 1 AT j, k 2 =7.01dBi, so limit=17-(7.01-6)=15.99dbm/mhz. 2 SS AT g j, k ote: j 1 k 1 DirectionalGain 10 log =7.01dBi, so limit =30-(7.01-6)=28.99dBm/500kHz. AT ote: All the test values were listed in the report. For plots, only the channel with worse result was shown. Report Format Version: Rev. 02 Page o. : 107 of 213

111 For non-beamforming mode For indoor use master B1 and indoor, outdoor use B4 Power Density Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz Power Density Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5745 MHz Report Format Version: Rev. 02 Page o. : 108 of 213

112 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5825 MHz Report Format Version: Rev. 02 Page o. : 109 of 213

113 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5795 MHz Report Format Version: Rev. 02 Page o. : 110 of 213

114 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 111 of 213

115 For indoor use slave without radar detection B1 Power Density Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz Report Format Version: Rev. 02 Page o. : 112 of 213

116 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5190 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Report Format Version: Rev. 02 Page o. : 113 of 213

117 For outdoor use master B1 Power Density Plot on Configuration IEEE a / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz Report Format Version: Rev. 02 Page o. : 114 of 213

118 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Report Format Version: Rev. 02 Page o. : 115 of 213

119 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type 1 Power Density Plot on Chain 1 + Chain 2 / 5210 MHz Power Density Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 116 of 213

120 For outdoor use master B1 Type 1 Power Density Plot on Chain 1 + Chain 2 / 5210 MHz Power Density Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 117 of 213

121 For beamforming mode For indoor use master B1 and indoor, outdoor use B4 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5200 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5825 MHz Report Format Version: Rev. 02 Page o. : 118 of 213

122 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5755 MHz Report Format Version: Rev. 02 Page o. : 119 of 213

123 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 120 of 213

124 For indoor use slave without radar detection B1 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5240 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5190 MHz Report Format Version: Rev. 02 Page o. : 121 of 213

125 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Report Format Version: Rev. 02 Page o. : 122 of 213

126 For outdoor use master B1 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT20 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5180 MHz Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5230 MHz Report Format Version: Rev. 02 Page o. : 123 of 213

127 Power Density Plot on Configuration IEEE ac MCS0/ss1 VHT80 / Chain 1 + Chain 2 + Chain 3 + Chain 4 / 5210 MHz Report Format Version: Rev. 02 Page o. : 124 of 213

128 802.11ac MCS0/ss2 VHT80+80 For indoor use master and slave without radar detection Type 1 Power Density Plot on Chain 1 + Chain 2 / 5210 MHz Power Density Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 125 of 213

129 For outdoor use master B1 Type 1 Power Density Plot on Chain 1 + Chain 2 / 5210 MHz Power Density Plot on Chain 3 + Chain 4 / 5775 MHz Report Format Version: Rev. 02 Page o. : 126 of 213

130 4.6. Radiated Emissions Measurement Limit For transmitters operating in the GHz band: all emissions outside of the GHz band shall not exceed an e.i.r.p. of 27 dbm/mhz. For transmitters operating in the GHz band: all emissions shall be limited to a level of -27 dbm/mhz at 75 MHz or more above or below the band edge increasing linearly to 10 dbm/mhz at 25 MHz above or below the band edge, and from 25 MHz above or below the band edge increasing linearly to a level of 15.6 dbm/mhz at 5 MHz above or below the band edge, and from 5 MHz above or below the band edge increasing linearly to a level of 27 dbm/mhz at the band edge. In addition, In case the emission fall within the restricted band specified on (a), then the (a) limit in the table below has to be followed. Frequencies (MHz) Field Strength (micorvolts/meter) Measurement Distance (meters) 0.009~ /F(kHz) ~ /F(kHz) ~ ~ ~ ~ Above Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of spectrum analyzer and receiver. Spectrum Parameter Setting Attenuation Auto Start Frequency 1000 MHz Stop Frequency 40 GHz RBW / VBW (Emission in restricted band) 1MHz / 3MHz for Peak, 1MHz / 1/T for Average RBW / VBW (Emission in non-restricted band) 1MHz / 3MHz for peak Report Format Version: Rev. 02 Page o. : 127 of 213

131 Receiver Parameter Attenuation Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Setting Auto 9kHz~150kHz / RBW 200Hz for QP 150kHz~30MHz / RBW 9kHz for QP 30MHz~1000MHz / RBW 120kHz for QP Test Procedures 1. Configure the EUT according to ASI C The EUT was placed on the top of the turntable 1.5 meter above ground. The phase center of the receiving antenna mounted on the top of a height-variable antenna tower was placed 1m & 3m far away from the turntable. 2. Power on the EUT and all the supporting units. The turntable was rotated by 360 degrees to determine the position of the highest radiation. 3. The height of the broadband receiving antenna was varied between one meter and four meters above ground to find the maximum emissions field strength of both horizontal and vertical polarization. 4. For each suspected emissions, the antenna tower was scan (from 1 M to 4 M) and then the turntable was rotated (from 0 degree to 360 degrees) to find the maximum reading. 5. Set the test-receiver system to Peak or CISPR quasi-peak Detect Function with specified bandwidth under Maximum Hold Mode. 6. For emissions above 1GHz, use 1MHz VBW and 3MHz RBW for peak reading. Then 1MHz RBW and 1/T VBW for average reading in spectrum analyzer. 7. If the emissions level of the EUT in peak mode was 3 db lower than the average limit specified, then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions which do not have 3 db margin will be repeated one by one using the quasi-peak method for below 1GHz. 8. For testing above 1GHz, the emissions level of the EUT in peak mode was lower than average limit (that means the emissions level in peak mode also complies with the limit in average mode), then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be measured in average mode again and reported. 9. In case the emission is lower than 30MHz, loop antenna has to be used for measurement and the recorded data should be QP measured by receiver. High Low scan is not required in this case. Report Format Version: Rev. 02 Page o. : 128 of 213

132 Test Setup Layout For Radiated Emissions: 9kHz ~30MHz For Radiated Emissions: 30MHz~1GHz Report Format Version: Rev. 02 Page o. : 129 of 213

133 For Radiated Emissions: Above 1GHz Test Deviation There is no deviation with the original standard EUT Operation during Test For on-beamforming mode: The EUT was programmed to be in continuously transmitting mode. For beamforming mode: The EUT was programmed to be in beamforming transmitting mode. Report Format Version: Rev. 02 Page o. : 130 of 213

134 Results of Radiated Emissions (9kHz~30MHz) Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations CTX Test Date ov. 04, 2016 Test Mode Mode 2 Freq. Level Over Limit Limit Line Remark (MHz) (dbuv) (db) (dbuv) See ote ote: The amplitude of spurious emissions that are attenuated by more than 20dB below the permissible value has no need to be reported. Distance extrapolation factor = 40 log (specific distance / test distance) (db); Limit line = specific limits (dbuv) + distance extrapolation factor. Report Format Version: Rev. 02 Page o. : 131 of 213

135 Results of Radiated Emissions (30MHz~1GHz) Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations CTX Test Mode Mode 2 Horizontal Report Format Version: Rev. 02 Page o. : 132 of 213

136 Vertical ote: The amplitude of spurious emissions that are attenuated by more than 20dB below the permissible value has no need to be reported. Emission level (dbuv/m) = 20 log Emission level (uv/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: Rev. 02 Page o. : 133 of 213

137 Results for Radiated Emissions (1GHz~40GHz) For non-beamforming mode Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE a CH 36 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 134 of 213

138 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE a CH 40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 135 of 213

139 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE a CH 48 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 136 of 213

140 Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations Test Date Oct. 18, 2016 Horizontal IEEE a CH 149 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 137 of 213

141 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE a CH 157 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 138 of 213

142 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE a CH 165 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 139 of 213

143 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 36 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 140 of 213

144 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 141 of 213

145 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 48 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 142 of 213

146 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 149 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 143 of 213

147 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 157 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 144 of 213

148 Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations Test Date Oct. 18, 2016 Horizontal IEEE ac MCS0/ss1 VHT20 CH 165 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 145 of 213

149 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT40 CH 38 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 146 of 213

150 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT40 CH 46 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 147 of 213

151 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 17, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT40 CH 151 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 148 of 213

152 Temperature 22 Humidity 54% Test Engineer Brain Sun Configurations Test Date Oct. 18, 2016 Horizontal IEEE ac MCS0/ss1 VHT40 CH 159 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 149 of 213

153 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Aug. 22, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT80 CH 42 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 150 of 213

154 Temperature 22 Humidity 54% Test Engineer Brain Sun Configurations Test Date Oct. 18, 2016 Horizontal IEEE ac MCS0/ss1 VHT80 CH 155 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 151 of 213

155 802.11ac MCS0/ss2 VHT80+80 Temperature 22 Humidity 54% Test Engineer Brain Sun Configurations Test Date Oct. 19, 2016 Horizontal IEEE ac MCS0/ss2 VHT80+80 Type 1/ CH / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical ote: The amplitude of spurious emissions that are attenuated by more than 20dB below the permissible value has no need to be reported. Emission level (dbuv/m) = 20 log Emission level (uv/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: Rev. 02 Page o. : 152 of 213

156 For beamforming mode Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 31, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 36 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 153 of 213

157 Temperature 22 Humidity 54% Test Engineer Brain Sun Configurations Test Date Oct. 20, 2016 Horizontal IEEE ac MCS0/ss1 VHT20 CH 40 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 154 of 213

158 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 31, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 48 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 155 of 213

159 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 31, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 149 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 156 of 213

160 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 31, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 157 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 157 of 213

161 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 31, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT20 CH 165 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 158 of 213

162 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 31, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT40 CH 38 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 159 of 213

163 Temperature 22 Humidity 54% Test Engineer Brain Sun Configurations Test Date Oct. 20, 2016 Horizontal IEEE ac MCS0/ss1 VHT40 CH 46 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 160 of 213

164 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 31, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT40 CH 151 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 161 of 213

165 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Jul. 31, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT40 CH 159 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 162 of 213

166 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Test Date Aug. 22, 2016 Horizontal Configurations IEEE ac MCS0/ss1 VHT80 CH 42 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 163 of 213

167 Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations Test Date Oct. 20, 2016 Horizontal IEEE ac MCS0/ss1 VHT80 CH 155 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical Report Format Version: Rev. 02 Page o. : 164 of 213

168 802.11ac MCS0/ss2 VHT80+80 Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations Test Date Aug. 12, 2016 Horizontal IEEE ac MCS0/ss2 VHT80+80 Type 1 / CH / Chain 1 + Chain 2 + Chain 3 + Chain 4 Vertical ote: The amplitude of spurious emissions that are attenuated by more than 20dB below the permissible value has no need to be reported. Emission level (dbuv/m) = 20 log Emission level (uv/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: Rev. 02 Page o. : 165 of 213

169 4.7. Band Edge Emissions Measurement Limit For transmitters operating in the GHz band: all emissions outside of the GHz band shall not exceed an e.i.r.p. of 27 dbm/mhz. For transmitters operating in the GHz band: all emissions shall be limited to a level of -27 dbm/mhz at 75 MHz or more above or below the band edge increasing linearly to 10 dbm/mhz at 25 MHz above or below the band edge, and from 25 MHz above or below the band edge increasing linearly to a level of 15.6 dbm/mhz at 5 MHz above or below the band edge, and from 5 MHz above or below the band edge increasing linearly to a level of 27 dbm/mhz at the band edge. In addition, In case the emission fall within the restricted band specified on (a), then the (a) limit in the table below has to be followed. Frequencies (MHz) Field Strength (micorvolts/meter) Measurement Distance (meters) 0.009~ /F(kHz) ~ /F(kHz) ~ ~ ~ ~ Above Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Attenuation Span Frequency RBW / VBW (Emission in restricted band) RBW / VBW (Emission in non-restricted band) Setting Auto 100 MHz 1MHz / 3MHz for Peak, 1MHz / 1/T for Average 1MHz / 3MHz for Peak Test Procedures The test procedure is the same as section Test Setup Layout This test setup layout is the same as that shown in section Report Format Version: Rev. 02 Page o. : 166 of 213

170 Test Deviation There is no deviation with the original standard EUT Operation during Test For on-beamforming mode: The EUT was programmed to be in continuously transmitting mode. For beamforming mode: The EUT was programmed to be in beamforming transmitting mode. Report Format Version: Rev. 02 Page o. : 167 of 213

171 Test Result of Band Edge and Fundamental Emissions For non-beamforming mode Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Configurations IEEE a CH 36, 40, 48 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 36 Item 3, 4 are the fundamental frequency at 5180 MHz. Report Format Version: Rev. 02 Page o. : 168 of 213

172 Channel 40 Item 3, 4 are the fundamental frequency at 5200 MHz. Report Format Version: Rev. 02 Page o. : 169 of 213

173 Channel 48 Item 3, 4 are the fundamental frequency at 5240 MHz. Report Format Version: Rev. 02 Page o. : 170 of 213

174 Temperature 22 Humidity 54% Zero Chen & Stim IEEE a CH 149, 157, 165 / Test Engineer Sung & Steven Liang Configurations Chain 1 + Chain 2 + Chain 3 + & Brian Sun Chain 4 Channel 149 Item 2, 3 are the fundamental frequency at 5745 MHz. Report Format Version: Rev. 02 Page o. : 171 of 213

175 Channel 157 Item 2, 3 are the fundamental frequency at 5785 MHz. Report Format Version: Rev. 02 Page o. : 172 of 213

176 Channel 165 Item 2, 3 are the fundamental frequency at 5825 MHz. Report Format Version: Rev. 02 Page o. : 173 of 213

177 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Configurations IEEE ac MCS0/ss1 VHT20 CH 36, 40, 48 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 36 Item 3, 4 are the fundamental frequency at 5180 MHz. Report Format Version: Rev. 02 Page o. : 174 of 213

178 Channel 40 Item 3, 4 are the fundamental frequency at 5200 MHz. Report Format Version: Rev. 02 Page o. : 175 of 213

179 Channel 48 Item 3, 4 are the fundamental frequency at 5240 MHz. Report Format Version: Rev. 02 Page o. : 176 of 213

180 Temperature 22 Humidity 54% Zero Chen & Stim IEEE ac MCS0/ss1 VHT20 CH 149, Test Engineer Sung & Steven Configurations 157, 165 / Chain 1 + Chain 2 + Chain 3 + Liang & Brian Sun Chain 4 Channel 149 Item 2, 3 are the fundamental frequency at 5745 MHz. Report Format Version: Rev. 02 Page o. : 177 of 213

181 Channel 157 Item 2, 3 are the fundamental frequency at 5785 MHz. Report Format Version: Rev. 02 Page o. : 178 of 213

182 Channel 165 Item 2, 3 are the fundamental frequency at 5825 MHz. Report Format Version: Rev. 02 Page o. : 179 of 213

183 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Configurations IEEE ac MCS0/ss1 VHT40 CH 38, 46 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 38 Item 3, 4 are the fundamental frequency at 5190 MHz. Report Format Version: Rev. 02 Page o. : 180 of 213

184 Channel 46 Item 3, 4 are the fundamental frequency at 5230 MHz. Report Format Version: Rev. 02 Page o. : 181 of 213

185 Temperature 22 Humidity 54% Zero Chen & Stim IEEE ac MCS0/ss1 VHT40 Test Engineer Sung & Steven Liang Configurations CH 151, 159 / & Brian Sun Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 151 Item 2, 3 are the fundamental frequency at 5755 MHz. Report Format Version: Rev. 02 Page o. : 182 of 213

186 Channel 159 Item 2, 3 are the fundamental frequency at 5795 MHz. Report Format Version: Rev. 02 Page o. : 183 of 213

187 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Configurations IEEE ac MCS0/ss1 VHT80 CH 42 Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 42 Item 3, 4 are the fundamental frequency at 5210 MHz. Report Format Version: Rev. 02 Page o. : 184 of 213

188 Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations Channel 155 IEEE ac MCS0/ss1 VHT80 CH 155 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Item 2, 3 are the fundamental frequency at 5775 MHz. Report Format Version: Rev. 02 Page o. : 185 of 213

189 802.11ac MCS0/ss2 VHT80+80 Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations Channel 42 IEEE ac MCS0/ss2 VHT80+80 Type 1/ CH / Chain 1 + Chain 2 + Chain 3 + Chain 4 Item 3, 4 are the fundamental frequency at 5210 MHz. Report Format Version: Rev. 02 Page o. : 186 of 213

190 Channel 155 Item 2, 3 are the fundamental frequency at 5775 MHz. ote: Emission level (dbuv/m) = 20 log Emission level (uv/m) Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level Report Format Version: Rev. 02 Page o. : 187 of 213

191 For beamforming mode Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang & Brian Sun Configurations IEEE ac MCS0/ss1 VHT20 CH 36, 40, 48 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 36 Item 3, 4 are the fundamental frequency at 5180 MHz. Report Format Version: Rev. 02 Page o. : 188 of 213

192 Channel 40 Item 3, 4 are the fundamental frequency at 5200 MHz. Report Format Version: Rev. 02 Page o. : 189 of 213

193 Channel 48 Item 3, 4 are the fundamental frequency at 5240 MHz. Report Format Version: Rev. 02 Page o. : 190 of 213

194 Temperature 22 Humidity 54% Zero Chen & Stim IEEE ac MCS0/ss1 VHT20 CH 149, Test Engineer Sung & Steven Configurations 157, 165 / Chain 1 + Chain 2 + Chain 3 + Liang Chain 4 Channel 149 Item 2, 3 are the fundamental frequency at 5745 MHz. Report Format Version: Rev. 02 Page o. : 191 of 213

195 Channel 157 Item 2, 3 are the fundamental frequency at 5785 MHz. Report Format Version: Rev. 02 Page o. : 192 of 213

196 Channel 165 Item 2, 3 are the fundamental frequency at 5825 MHz. Report Format Version: Rev. 02 Page o. : 193 of 213

197 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang & Brian Sun Configurations IEEE ac MCS0/ss1 VHT40 CH 38, 46 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 38 Item 3, 4 are the fundamental frequency at 5190 MHz. Report Format Version: Rev. 02 Page o. : 194 of 213

198 Channel 46 Item 3, 4 are the fundamental frequency at 5230 MHz. Report Format Version: Rev. 02 Page o. : 195 of 213

199 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Configurations IEEE ac MCS0/ss1 VHT40 CH 151, 159 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 151 Item 2, 3 are the fundamental frequency at 5755 MHz. Report Format Version: Rev. 02 Page o. : 196 of 213

200 Channel 159 Item 2, 3 are the fundamental frequency at 5795 MHz. Report Format Version: Rev. 02 Page o. : 197 of 213

201 Temperature 22 Humidity 54% Test Engineer Zero Chen & Stim Sung & Steven Liang Configurations IEEE ac MCS0/ss1 VHT80 CH 42 Chain 1 + Chain 2 + Chain 3 + Chain 4 Channel 42 Item 3, 4 are the fundamental frequency at 5210 MHz. Report Format Version: Rev. 02 Page o. : 198 of 213

202 Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations Channel 155 IEEE ac MCS0/ss1 VHT80 CH 155 / Chain 1 + Chain 2 + Chain 3 + Chain 4 Item 2, 3 are the fundamental frequency at 5775 MHz. Report Format Version: Rev. 02 Page o. : 199 of 213

203 802.11ac MCS0/ss2 VHT80+80 Temperature 22 Humidity 54% Test Engineer Brian Sun Configurations Channel 42 IEEE ac MCS0/ss2 VHT80+80 Type 1/ CH / Chain 1 + Chain 2 + Chain 3 + Chain 4 Item 3, 4 are the fundamental frequency at 5210 MHz. Report Format Version: Rev. 02 Page o. : 200 of 213

204 Channel 155 Item 2, 3 are the fundamental frequency at 5775 MHz. ote: Emission level (dbuv/m) = 20 log Emission level (uv/m) Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level Report Format Version: Rev. 02 Page o. : 201 of 213

205 4.8. Frequency Stability Measurement Limit In-band emission is maintained within the band of operation under all conditions of normal operation as specified in the user s manual. The transmitter center frequency tolerance shall be ± 20 ppm maximum for the 5 GHz band (IEEE n specification) Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Setting Attenuation Auto Span Frequency Entire absence of modulation emissions bandwidth RBW 10 khz VBW 10 khz Sweep Time Auto Test Procedures 1. The transmitter output (antenna port) was connected to the spectrum analyzer. 2. EUT have transmitted absence of modulation signal and fixed channelize. 3. Set the spectrum analyzer span to view the entire absence of modulation emissions bandwidth. 4. Set RBW = 10 khz, VBW = 10 khz with peak detector and maxhold settings. 5. fc is declaring of channel frequency. Then the frequency error formula is (fc-f)/fc 10 6 ppm and the limit is less than ±20ppm (IEEE nspecification). 6. Allow sufficient time (approximately 30 min) for the temperature of the chamber to stabilize, turn the EUT on and measure the operating frequency after 2, 5, and 10 minutes. 7. The test extreme voltage is to change the primary supply voltage from 85 to 115 percent of the nominal value 8. Extreme temperature is -10 C~70 C Test Setup Layout Report Format Version: Rev. 02 Page o. : 202 of 213