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JackyLee
MPE
Extreme Networks, Inc. AP460SC Wireless Access Point QXO-AP460SC QXOAP460SC ap460sc
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Document DEVICE REPORTGetApplicationAttachment.html?id=4847248RF Exposure Evaluation Declaration Product Name : Wireless Access Point Model No. : AP460SC FCC ID : QXO-AP460SC Applicant : Extreme Networks, Inc Address : 6480 Via Del Oro, San Jose, CA 95119 Date of Receipt : May. 11, 2020 Issued Date : Aug. 06, 2020 Report No. : 2032034R-RF-US-P20V01 Report Version : V1.0 The test results presented in this report relate only to the object tested. The measurement result is considered in conformance with the requirement if it is within the prescribed limit, It is not necessary to account the uncertainty associated with the measurement result, unless the specification, standard or customer have special requirements This report shall not be reproduced, except in full, without the written approval of the Issuing CB Testing Laboratory This report is not used for social proof in China (or Mainland China) market. Report No: 2032034R-RF-US-P20V01 Tes t R epo rt Ce r ti fica tio n Issued Date: Aug. 06, 2020 Report No.: 2032034R-RF-US-P20V01 Product Name Applicant Address Manufacturer Address Model No. Brand FCC ID EUT Voltage Applicable Standard Test Result Performed Location : Wireless Access Point : Extreme Networks, Inc : 6480 Via Del Oro, San Jose, CA 95119 : Extreme Networks, Inc : 6480 Via Del Oro, San Jose, CA 95119 : AP460SC : Extreme Networks : QXO-AP460SC : DC 37~57V : KDB 447498D01V06 FCC Part1.1310 : Complied : DEKRA Testing and Certification (Suzhou) Co., Ltd. No.99 Hongye Rd., Suzhou Industrial Park, Suzhou, 215006, Jiangsu, China TEL: +86-512-6251-5088 / FAX: +86-512-6251-5098 FCC Designation Number: CN1199 Documented By : (Project Assistant: Kitty Li) Reviewed By : (Technical Supervisor: Frank He) Approved By : (Supervisor: Jack Zhang) Page: 2 of 13 Report No: 2032034R-RF-US-P20V01 1. RF Exposure Evaluation 1.1. Limits According to FCC 1.1310: The criteria listed in the following table shall be used to evaluate the environment impact of human exposure to radio frequency (RF) radiation as specified in 1.1307(b) LIMITS FOR MAXIMUM PERMISSIBLE EXPOSURE (MPE) Frequency Range (MHz) Electric Field Strength (V/m) Magnetic Field Strength (A/m) Power Density (mW/cm2) Average Time (Minutes) (A) Limits for Occupational/ Control Exposures 300-1500 -- -- F/300 6 1500-100,000 -- -- 5 6 (B) Limits for General Population/ Uncontrolled Exposures 300-1500 -- -- F/1500 6 1500-100,000 -- -- 1 30 F= Frequency in MHz Friis Formula Friis transmission formula: Pd = (Pout*G)/(4*pi*r2) Where Pd = power density in mW/cm2 Pout = output power to antenna in mW G = gain of antenna in linear scale Pi = 3.1416 R = distance between observation point and center of the radiator in cm Pd is the limit of MPE, 1 mW/cm2. If we know the maximum gain of the antenna and the total power input to the antenna, through the calculation, we will know the distance r where the MPE limit is reached. Page: 3 of 13 Report No: 2032034R-RF-US-P20V01 1.2. Test Procedure Software provided by client enabled the EUT to transmit and receive data at lowest, middle and highest channel individually. The temperature and related humidity: 18and 78 RH. 1.3. Test Result of RF Exposure Evaluation Product : Wireless Access Point Test Item : RF Exposure Evaluation Test Site : AC-6 Note: Model AP460SC have two antenna configurations called AP460S6C and AP460S12C, they are the same except the antenna type and antenna gain. We evaluated AP460S6C for conducted test item, AP460S6C, AP460S12C for radiated test item and conducted emission, shown in the report is the worst data of AP460S6C, AP460S12C. Antenna Information: BLE: AP460S6C: Antenna Model No. Antenna Manufacturer Antenna Delivery Antenna Technology N/A N/A 1*TX+1*RX SISO MIMO Antenna Type PIFA Antenna 3(Radio 3) Gain 7.90 dBi 2*TX+2*RX 3*TX+3*RX Basic methodology Sectorized antenna systems Cross-polarized antennas Unequal antenna gains, with equal transmit powers Spatial Multiplexing Cyclic Delay Diversity (CDD) Page: 4 of 13 Report No: 2032034R-RF-US-P20V01 AP460S12C: Antenna Model No. Antenna Manufacturer Antenna Delivery Antenna Technology N/A N/A 1*TX+1*RX SISO MIMO Antenna Type PIFA Antenna 3(Radio 3) Gain 6.63 dBi 2*TX+2*RX 3*TX+3*RX Basic methodology Sectorized antenna systems Cross-polarized antennas Unequal antenna gains, with equal transmit powers Spatial Multiplexing Cyclic Delay Diversity (CDD) Page: 5 of 13 Report No: 2032034R-RF-US-P20V01 WLAN 2.4GHz: AP460S6C: Antenna Model No. N/A Antenna Manufacturer N/A Antenna Delivery 1*TX+1*RX 2*TX+2*RX 3*TX+3*RX Antenna Technology SISO Basic methodology Sectorized antenna systems MIMO Cross-polarized antennas Unequal antenna gains, with equal transmit powers Spatial Multiplexing Cyclic Delay Diversity (CDD) Antenna Type PIFA Antenna Gain(Radio 1) Antenna Technology Ant Gain (dBi) Ant 4(Radio 1) 7.83 Antenna Gain(Radio 2) Antenna Technology Ant Gain (dBi) Ant1 7.88 (Radio 2) SISO Ant2 7.88 (Radio 2) CDD 7.88 dBi for Power; 10.89 dBi for PSD Beam-forming 10.89 dBi for Power; 10.89 dBi for PSD Page: 6 of 13 Report No: 2032034R-RF-US-P20V01 AP460S12C: Antenna Model No. N/A Antenna Manufacturer N/A Antenna Delivery 1*TX+1*RX 2*TX+2*RX 3*TX+3*RX Antenna Technology SISO Basic methodology Sectorized antenna systems MIMO Cross-polarized antennas Unequal antenna gains, with equal transmit powers Spatial Multiplexing Cyclic Delay Diversity (CDD) Antenna Type PIFA Antenna Gain(Radio 1) Antenna Technology Ant Gain (dBi) Ant 4(Radio 1) 5.53 Antenna Gain(Radio 2) Antenna Technology Ant Gain (dBi) Ant1 7.12 (Radio 2) SISO Ant2 6.16 (Radio 2) CDD 7.12 dBi for Power; 10.13 dBi for PSD Beam-forming 10.13 dBi for Power; 10.13 dBi for PSD Page: 7 of 13 Report No: 2032034R-RF-US-P20V01 WLAN 5GHz: AP460S6C: Antenna Model No. N/A Antenna Manufacturer N/A Antenna Delivery 1*TX+1*RX 2*TX+2*RX 3*TX+3*RX 4*TX+4*RX Antenna Technology SISO Basic methodology Sectorized antenna systems MIMO Cross-polarized antennas Unequal antenna gains, with equal transmit powers Spatial Multiplexing Cyclic Delay Diversity (CDD) Antenna Type PIFA Antenna Gain(Radio 1) Antenna Technology Ant Gain (dBi) Ant 4(Radio 1) 6.46 Antenna Gain(Radio 2) Antenna Technology Ant Gain (dBi) Ant1 7.77 (Radio 2) SISO Ant2 7.79 (Radio 2) CDD 7.79dBi for Power; 10.80dBi for PSD Beam-forming 10.80dBi for Power; 10.80dBi for PSD Page: 8 of 13 Report No: 2032034R-RF-US-P20V01 Antenna Gain(Radio 3) Antenna Technology Ant3 (Radio 3) Ant5 SISO (Radio 3) Ant6 (Radio 3) Ant7 (Radio 3) 2*2 CDD 2*2 Beam-forming 4*4 CDD 4*4 Beam-forming Ant Gain (dBi) 7.84 8.06 7.91 7.65 8.06dBi for Power; 11.07dBi for PSD 11.07dBi for Power; 11.07dBi for PSD 8.06dBi for Power; 14.08dBi for PSD 14.08dBi for Power; 14.08dBi for PSD Page: 9 of 13 Report No: 2032034R-RF-US-P20V01 AP460S12C: Antenna Model No. N/A Antenna Manufacturer N/A Antenna Delivery 1*TX+1*RX 2*TX+2*RX 3*TX+3*RX 4*TX+4*RX Antenna Technology SISO Basic methodology Sectorized antenna systems MIMO Cross-polarized antennas Unequal antenna gains, with equal transmit powers Spatial Multiplexing Cyclic Delay Diversity (CDD) Antenna Type PIFA Antenna Gain(Radio 1) Antenna Technology Ant Gain (dBi) Ant 4(Radio 1) 5.54 Antenna Gain(Radio 2) Antenna Technology Ant Gain (dBi) Ant1 6.36 (Radio 2) SISO Ant2 6.11 (Radio 2) CDD 6.36dBi for Power; 9.37dBi for PSD Beam-forming 9.37dBi for Power; 9.37dBi for PSD Page: 10 of 13 Report No: 2032034R-RF-US-P20V01 Antenna Gain(Radio 3) Antenna Technology Ant3 (Radio 3) Ant5 SISO (Radio 3) Ant6 (Radio 3) Ant7 (Radio 3) 2*2 CDD 2*2 Beam-forming 4*4 CDD 4*4 Beam-forming Ant Gain (dBi) 6.25 6.15 5.37 5.31 6.25dBi for Power; 9.26dBi for PSD 9.26dBi for Power; 9.26dBi for PSD 6.25dBi for Power; 12.27dBi for PSD 12.27dBi for Power; 12.27dBi for PSD Note1: The device supports 3 radios, radio 1(1*1 2.4GHz & 1*1 5GHz full band); radio 2(2*2 2.4GHz & 2*2 5GHz low band); radio 3(4*4 5GHz full band & 1*1 BLE), and radio 2 & 3 can works with Dual 2.4GHz & 5GHz mode and Dual 5GHz mode. As the 5GHz high band filter is different between two modes, additional Radio 3 5GHz high band mode is tested for compliance. Dual 2.4GHz & 5GHz mode: Radio 2(2.4GHz 2*2) + Radio 3(5GHz full band 4*4) Dual 5GHz mode: Radio 2(5GHz low band 2*2) + Radio 3(5GHz high band 4*4) Note2: Radio 3 1*1 and 3*3 power will follow 2*2 and 4*4 power setting, so only 2*2 and 4*4 data are tested. Page: 11 of 13 Report No: 2032034R-RF-US-P20V01 Power Density Standalone modes: AP460SC: Wireless Radio Test Mode Frequency Band (MHz) Radio 3 BLE 2400 ~ 2483.5 Radio 1 802.11b/g/n/ax 2400 ~ 2483.5 Radio 2 802.11b/g/n/ax 2400 ~ 2483.5 Radio 1 5150 ~ 5250 & 802.11a/n/ac/ax 5725 ~ 5850 Radio 2 802.11a/n/ac/ax 5150 ~ 5250 Radio 3 Full 5150 ~ 5250 & 802.11a/n/ac/ax band 5725 ~ 5850 Radio 3 High 802.11a/n/ac/ax 5725 ~ 5850 band Maximum EIRP (dBm) Power Density at Power Density Limit R = 25 cm at R = 25 cm (mW/cm2) (mW/cm2) 11.82 0.002 1.0 30.59 0.146 1.0 33.68 0.297 1.0 26.29 0.054 1.0 22.89 0.025 1.0 35.76 0.480 1.0 35.66 0.469 1.0 Page: 12 of 13 Report No: 2032034R-RF-US-P20V01 Simultaneous transmission: Wireless Configure Power Density Maximum EIRP Limit of Frequency S at R = 25 cm (dBm) Power Range (mW/cm2) Rate Limit Density (MHz) Radio RadioRadio Radio Radio Radio BLE S(mW/cm2) BLE 1 2 3 1 2 3 Radio 1 + Radio 2(2.4GHz Only) + Radio 3(5GHz 2.4G+5G 30.59 33.68 35.7611.82 1.0 0.146 0.297 0.4800.0020.925 1 Full Band) + BLE Radio 1 + Radio 2(5GHz Low Band) + Radio 2.4G+5G 30.59 22.89 35.6611.82 1.0 0.146 0.025 0.4690.0020.641 1 3(5GHz High Band) + BLE The EUT support simultaneously transmit with Radio 1 + Radio 2+ Radio 3 + BLE. The worst combination should be shown in the report. The simultaneously safety distance is 25cm for installed for Wireless Access Point without any other radio equipment. The End Page: 13 of 13
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