ESPRESSIF SYSTEMS ESPWROOM02 Wi-Fi Internet of Things Module User Manual RF Exposure Info

ESPRESSIF SYSTEMS (SHANGHAI) PTE LTD Wi-Fi Internet of Things Module RF Exposure Info

Contents

RF Exposure Info

  Report No.: RXA1503-0042MPE01                                                Page 1 of 5  :         MPE REPORT    Product Name  Wi-Fi Internet of Things Module Model  ESP-WROOM-02 Brand Name  WROOM FCC ID  2AC7Z-ESPWROOM02   Applicant  ESPRESSIF SYSTEMS (SHANGHAI) PTE LTD Manufacturer  ESPRESSIF SYSTEMS (SHANGHAI) PTE LTD Date of issue  April 10, 2015     Approved by    Kai Xu Director  Revised by  Jiangpeng Lan SAR Manager Performed by       Liang Ye       SAR Engineer   Test By  Company:  TA Technology (Shanghai) Co., Ltd. Address:  No.145, Jintang Rd, Tangzhen Industry Park, Pudong Shanghai,China Contact:  Xu Kai Telephone:  +86-021-50791141/2/3 Fax:  +86-021-50791141/2/3-8000 Website:  http://www.ta-shanghai.com E-mail:  yangweizhong@ta-shanghai.com
TA Technology (Shanghai)Co.,Ltd. Test Report Report No.: RXA1503-0042MPE01                                               Page 2 of 5     Maximum Permissible Exposure   Type of EUT: Wi-Fi Internet of Things Module FCC ID: 2AC7Z-ESPWROOM02   Manufacturer: ESPRESSIF SYSTEMS (SHANGHAI) PTE LTD Model: ESP-WROOM-02  Maximum conducted output power (measured) and antenna Gain: Band Output Power(dBm) 802.11b 22.23 802.11g 21.57 802.11n(20M) 22.04     According to section 1.1310 of FCC 47 CFR Part 1, limits for maximum permissible exposure (MPE) are as following Band  maximum tune up procedure (dBm)  Antenna Gain (dBi) 802.11b 23  2 802.11g 23  2 802.11n(20M) 23.5  2
TA Technology (Shanghai)Co.,Ltd. Test Report Report No.: RXA1503-0042MPE01                                               Page 3 of 5  Note1. Occupational/controlled limits apply in situations in which persons are exposed as a consequence of their employment provided those persons are fully aware of the potential for exposure and can exercise control over their exposure. Limits for occupational/controlled exposure also apply in situations when an individual is transient through a location where occupational / controlled limits apply provided he or she is made aware of the potential for exposure. Note2: General population/uncontrolled exposures apply in situations in which the general public may be exposed, or in which persons that are exposed as a consequence of their employment may not be fully aware of the potential for exposure or can not exercise control over their exposure.
TA Technology (Shanghai)Co.,Ltd. Test Report Report No.: RXA1503-0042MPE01                                               Page 4 of 5 The maximum permissible exposure for 300~1500MHz is f/1500, 1500~100,000MHz is f/1500.So         IMPORTANT NOTE: To comply with the FCC RF exposure compliance requirements, the antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. No change to the antenna or the device is permitted. Any change to the antenna or the device could result in the device exceeding the RF exposure requirements and void user’s authority to operate the device.  Band  The maximum permissible exposure 802.11b/g/n  1 mW/cm²
TA Technology (Shanghai)Co.,Ltd. Test Report Report No.: RXA1503-0042MPE01                                               Page 5 of 5  RF Exposure Calculations: The following information provides the minimum separation distance for the highest gain antenna provided. This calculation is based on the conducted power, considering maximum power and antenna gain. The formula shown in KDB 865664 D01 is used in the calculation.   Equation from KDB 865664 D01, Edition 97-01 is: S= PG / 4∏R2 where:    S = power density (in appropriate units, e.g. mW/cm2)                                P = Time-average maximum tune up procedure (in appropriate units, e.g., mW) G = the numeric gain of the antenna                                 R = distance to the center of radiation of the antenna (20 cm = limit for MPE) So, the numeric gain (G) of the antenna with a gain specified in dB is determined by Numeric gain (G)=10^(antenna gain/10)=10^(2/10)=1.58 dB  802.11b          PG = 23dBm+ (1.58dB) =24.58dBm=287mW 802.11g          PG = 23dBm+ (1.58dB) =24.58dBm= 287mW 802.11n(20M)     PG = 23.5dBm+(1.58dB)=25.08dBm= 322mW R =20 cm ∏= 3.1416 Solving for S, the power density at 20 cm is   Band  Test Result (mW/cm2)  Limit Value (mW/cm2) 802.11b 0.06 1 mW/cm² 802.11g 0.06 1 mW/cm² 802.11n(20M) 0.06  1 mW/cm² Note: For mobile or fixed location transmitters, minimum separation distance is 20cm, even if calculations indicate MPE distance is less.

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