Rf Exposure

FCC ID: EWQ100GDLAS

RF Exposure Info

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FCCID_3396296

FCC-5006-001-mpe Page 1 of 3 REGULATORY COMPLIANCE REPORT TITLE: FCC & IC MPE Report for 15.247 & RSS‐210 Frequency Hopping Device Residential FCC ID: EWQ100GDLAS IC: 864D‐100GDLAS AUTHOR: Mark Kvamme REV CCO DESCRIPTION OF CHANGE DATE APPROVALS Engineering 001 INITIAL RELEASE Regulatory REVISION HISTORY updated for new Engineering 002 RSS102i5_march2015 limits and updated for +50kHz 02sep15 Regulatory /s/jay r. holcomb Updated for class II 03mar17 Engineering Mark Kvamme 003 permissive change , inductor update 03mar17 Regulatory /s/jay r. holcomb Engineering Regulatory NOTICE OF PROPRIETARY INFORMATION Information contained herein is proprietary and is property of ITRON, Inc. where furnished with a proposal, the recipient shall use it solely to evaluate the proposal. Where furnished to a customer it shall be used solely for the purposes of inspection, installation or maintenance. Where furnished to a supplier, it shall be used solely in the performance of work contracted for this company. The information shall not be used or disclosed by the recipient for any other purpose, whatsoever. 100gdlasp4c2pc_induct_mpe.docx Rev. 003

FCC-5006-001-mpe Page 2 of 3 Test Data Summary FCC 15.247 / ISED RSS‐247210; Frequency Hopping Transmitter; 100G DLS – Residential, 903MHz – 926.85 MHz FCC ID: EWQ100GDLAS IC: 864D‐100GDLAS HVIN: 1S,2S,8S Pass/ Rule Description Spec Limit Max. Reading Fail Limits for Maximum Parts 2.1091(mobile) Permissible Exposure & 1.1310 (MPE) 0.601 mw/cm2 @ 20cm 0.108575 mW / cm2 Pass RF Field Strength Limits for Devices Used RSS‐102 Sec 4.2 by the General Public 2.7 W/M2 @ 0.2M 1.08575 W/M2 Pass Rule versions: FCC Part 1; FCC Part 2; FCC Part 15, RSS‐102 Issue 5 (03‐2015); RSS‐247 Issue 1 (5‐2015); RSS‐Gen Issue 4 (12‐2014). Reference docs: ANSI C63.4‐2014; ANSI C63.10‐2013; DA 00‐705 (03‐30‐2000); OET65 (08‐1997); OET65C (06‐2001); IEEE C95.3‐2002. Cognizant Personnel Name Title Mark Kvamme Test Technician Name Title Jay Holcomb Regulatory Manager Name Title Johann De Jager Project Lead CONDITIONS DURING TESTING No Modifications to the EUT were necessary during the testing. ANSI C63.4 ‐ Temperature and Humidity During Testing The temperature during testing was within +10º C and +40º C. The Relative humidity was between 10% and 90%. RSS‐Gen 4.3: Tests shall be performed at ambient temperature EQUIPMENT UNDER TEST (EUT) DESCRIPTION Itron declares that the EUT tested was representative of a production unit. EQUIPMENT UNDER TEST EUT Module Manuf: Itron, Inc. Itron p/n: ERG‐5006‐001/002/003/004/009 Serial Number(s) Conducted power test unit id: 105 Radiated power test unit id:15151111 Power source Fresh Batteries were used Peripheral Devices None 100gdlasp4c2pc_induct_mpe.docx Rev. 003

FCC-5006-001-mpe Page 3 of 3 1.1310 & 2.1091(mobile) or 2.1093(portable) / RSS‐102 Sec 4 (table4) ‐ Canada Safety Code 6; Table 5 Maximum Permissible Exposure (MPE) (reference from FCC) Radiofrequency radiation exposure limits. ‐ The criteria listed in Table 1 shall be used to evaluate the environmental impact of human exposure to radiofrequency (RF) radiation as specified in §1.1307(b), except in the case of portable devices which shall be evaluated according to the provisions of §2.1093 of this chapter. 1.1307 (b) In addition to the actions listed in paragraph (a) of this section, Commission actions granting construction permits, licenses to transmit or renewals thereof, equipment authorizations or modifications in existing facilities, require the preparation of an Environmental Assessment (EA) if the particular facility, operation or transmitter would cause human exposure to levels of radiofrequency radiation in excess of the limits in §§1.1310 and 2.1093 of this chapter. Determine the maximum power density for the general / uncontrolled population minimum separation distance of 20 cm. The power density is calculated as: Pd = power density in mW/cm2 Pt  G Pt = transmit power in milliwatts Pd  4  r2 G = numeric antenna gain r = distance between body and transmitter in centimeters. FCC Limits: 903MHz / 1500 = 0.602 mW / cm2 @ 20cm IC Limits: 903MHz / 150 = 6.02 W / M2 (@ 0.2M)  issue4 f=903; 0.02619 x f^0.6834 w/m^2 = 2.74 W / M2 (@ 0.2M)  issue5 ISED max limit for calculation: 1.31 x 10‐2 ƒ^0.6834 watts eirp = 1.37 watts EIRP Field antenna antenna mW / Power EIRP1 Conducted Conducted power W/M2 @ Max EIRP strength gain2 gain cm2 @ level (dBm) power (dBm) (milliwatts) 0.2 M 4 (Watts) (dBuV/m) (dBi) numeric 20cm 3 0.00196 0.01966 0.009885 1 105.15 9.95 6.09 4.0644 3.8600 2.4322 67 66 5 0.04894 0.48947 0.246036 2 119.11 23.91 21.76 149.9685 2.1500 1.6406 75 46 8 0.10857 1.08575 0.545757 3 122.57 27.37 25.16 328.0953 2.2100 1.6634 51 08 9 (1) EIRP (dBm) used 412172 D01 Determining ERP and EIRP v01r01 to calculate EIRP (2) Antenna gain (dBi) = EIRP (dBm) ‐ Conducted power (dBm) (3) PD = (mW x ant. gain numeric) / ( 4 x pi x 20cm2) = mW / cm2 @ 20 cm (4) W/m2 @ 0.2M = 10 x mW/cm2 @ 20 cm (5) dBm = 10log10(mW) 100gdlasp4c2pc_induct_mpe.docx Rev. 003


Document Created: 2017-03-24 13:47:48
Document Modified: 2017-03-24 13:47:48
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