13. MPE rev3

FCC ID: TE7C60V3

RF Exposure Info

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FCCID_4422189

FCC RF EXPOSURE REPORT FCC ID: TE7C60V3 Project No. : 1906C116 Equipment : AC1350 Wireless Dual Band Router Model Name : Archer C60 Series Model : N/A Applicant : TP-Link Technologies Co., Ltd. Address : Building 24(floors1,3,4,5) and 28(floors1-4) Central Science and Technology Park, Shennan Rd, Nanshan, Shenzhen, China According : FCC Guidelines for Human Exposure IEEE C95.1 & FCC Part 2.1091 BTL INC. No.3, Jinshagang 1st Road, Shixia, Dalang Town, Dongguan, Guangdong, China. TEL: +86-769-8318-3000 FAX: +86-769-8319-6000 Report No.: BTL-FCCP-3-1906C116 Page 1 of 6 Report Version: R02

REPORT ISSUED HISTORY Report Version Description Issued Date R00 Original Issue Aug. 22, 2019 Updated the 2.4G Average Output Power test R01 Aug. 28, 2019 result. R02 Updated the 5G Average Output Power test result. Aug. 30, 2019 Report No.: BTL-FCCP-3-1906C116 Page 2 of 6 Report Version: R02

1. GENERAL SUMMARY Equipment : AC1350 Wireless Dual Band Router Brand Name : tp-link Test Model : Archer C60 Series Model : N/A Applicant : TP-Link Technologies Co., Ltd. Manufacturer : TP-Link Technologies Co., Ltd. Address : Building 24(floors1,3,4,5) and 28(floors1-4) Central Science and Technology Park, Shennan Rd, Nanshan, Shenzhen, China Date of Test : Jun. 21, 2019 ~ Aug. 12, 2019 Test Sample : Engineering Sample No.: DG19062092 Standards : FCC Title 47 Part 2.1091, OET Bulletin 65 Supplement C The above equipment has been tested and found compliance with the requirement of the relative standards by BTL Inc. The test data, data evaluation, and equipment configuration contained in our test report (Ref No. BTL-FCCP-3-1906C116) were obtained utilizing the test procedures, test instruments, test sites that has been accredited by the Authority of A2LA according to the ISO/IEC 17025 quality assessment standard and technical standard(s). Report No.: BTL-FCCP-3-1906C116 Page 3 of 6 Report Version: R02

fCW}I ; s B dnc 3LL sumaeel w i jeg —Rit 2. MPE CALCULATION METHOD Calculation Method of RF Safety Distance: 8 . o_m in 4n‘ where: S = power density P = power input to the antenna G = power gain of the antenna in the direction of interest relative to an isotropic radiator R = distance to the center of radiation of the antenna Antenna Specification: For 2.4GHz: Ant. Brand P/N Antenna Type Connector Gain(dBi) 1 3101502333 Dipole Weld 1.25 ul T P—LINKsEz> Dipole Weld 1.25 n T P—LINKseX Dipole Weld 1.32 Note: This EUT supports CDD, and antenna gains are not equal, so Directional gain= 10log[(10°2%+10°"% ... 10°~"°)"/N1dBi, that is Directional gain= 10log[(10‘*"""+10‘>"%+10‘*>"")"/21gBi =6.04. So, the output power limit is 30—6.04+6=29.96, the power spectral density limit is 8—6.04+6=7.96. For 5GHz: Ant. Brand P/N Antenna Type Connector Gain (dBi) Note 1 |Ins#W),YTFC| 3101502331 Dipole Weld 1.98 UNI—1 2 |IpBEZEH)UTT| 3101502330 Dipole Weld 1.98 UNII—1 1 |IpDZH)YTFC| 3101502331 Dipole Weld 0.78 UNII—3 e P—LINK (EEaEoxx) Dipole Weld 0.78 UNII—3 Note: This EUT supports CDD, and all antennas have the same gain for UNIl—1 and UNII—3, so (1) For Non Beamforming Function: For UNII—1: a) power spectral density measurements, Nayt = 2, Nss = 1. So Directional gain = Gayf + Array Gain =10 log (Nayt/ Nss) dB =1.98+10l0g(2/1)dBi=4.99. b) Power measurements, Array Gain = 0 dB (Nay; < 4), so the Directional gain=1.98. For UNII—3: c) power spectral density measurements, Nayt = 2, Nss = 1. So Directional gain = Gayf + Array Gain =10 log (Nayt/ Nss) dB =0.78+10l0g(2/1)dBi=3.79. d) Power measurements, Array Gain = 0 dB (Nayt < 4), so the Directional gain=0.78. (2) For With Beamforming Function: Beamforming Gain: 3 dB. So UNIl—1Directional gain = 1.98+3=4.98, UNII—3 Directional gain = 0.78+3=3.78. Report No.: BTL—FCCP—3—1906C116 Page 4 of 6 Report Version: RO2

3. TEST RESULTS For 2.4GHz: Directional Directional Max. Average Max. Average Power Limit of Power Test Gain Gain Output Power Output Power Density (S) Density (S) 2 Result (dBi) (numeric) (dBm) (mW) (mW/cm ) (mW/cm2) 6.04 4.0179 22.50 177.8279 0.14222 1 Complies For 5GHz UNII-1 Non Beamforming: Directional Directional Max. Output Max. Output Power Limit of Power Test Gain Gain Power Power Density (S) Density (S) 2 Result (dBi) (numeric) (dBm) (mW) (mW/cm ) (mW/cm2) 1.98 1.5776 24.24 265.4606 0.08336 1 Complies For 5GHz UNII-3 Non Beamforming: Directional Directional Max. Output Max. Output Power Limit of Power Test Gain Gain Power Power Density (S) Density (S) Result (dBi) (numeric) (dBm) (mW) (mW/cm2) (mW/cm2) 0.78 1.1967 24.74 297.8516 0.07095 1 Complies For 5GHz UNII-1 With Beamforming: Directional Directional Max. Output Max. Output Power Limit of Power Test Gain Gain Power Power Density (S) Density (S) Result (dBi) (numeric) (dBm) (mW) (mW/cm2) (mW/cm2) 4.98 3.1477 24.41 276.0578 0.17296 1 Complies For 5GHz UNII-3 With Beamforming: Directional Directional Max. Output Max. Output Power Limit of Power Test Gain Gain Power Power Density (S) Density (S) Result (dBi) (numeric) (dBm) (mW) (mW/cm2) (mW/cm2) 3.78 2.3878 24.67 293.0893 0.13930 1 Complies Report No.: BTL-FCCP-3-1906C116 Page 5 of 6 Report Version: R02

For the max simultaneous transmission MPE: Power Density (S) Power Density (S) Limit of Power (mW/cm2) (mW/cm2) Total Density (S) Test Result 2.4GHz 5GHz (mW/cm2) 0.14222 0.17296 0.31518 1 Complies Note: The calculated distance is 20 cm. End of Test Report Report No.: BTL-FCCP-3-1906C116 Page 6 of 6 Report Version: R02


Document Created: 2019-09-02 10:59:18
Document Modified: 2019-09-02 10:59:18
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