SAR 3G probe

FCC ID: K7S-F6D3050

RF Exposure Info

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FCCID_514197

D3: 3G DOSIMETRIC E-FIELD PROBE ET3DV6 - SN1687

Schmid & PartnerEnginering AG s e a Zeughausstrasse 43, 8004 Zurich, Switzerland Phone +41 1 245 9700, Fax +41 1 245 9779 info@speag.com, http:/www.speag.com IMPORTANT NOTICE USAGE OF PROBES IN ORGANIC SOLVENTS Diethylene Gycol Monobuthy Ether(the basis for liquids above 1 GHz), as many other organic solvents, is a very effective softener for synthetic materials. These solvents can cause irreparable damage to certain SPEAG products, except those which are explicitly declared as compliant with organic solvents. Compatible Probes: — ET3DV6 — ET3DV6R — ES3DV2 — ER3DV6 — H3DV6 Important Note for ET3DV6 Probes: The ET3DV6 probes shall not be exposed to solvents longer than necessary for the measurements and shall be cleaned daily after use with warm water and stored dry. s p o a g Schmid & Portner Enginesring AG Zeughausstrasse 43, 8004 Zurich, Switzorland Phone +411 245 9700, Fex +41 1 245 9770 info@speag.com, hpiliwww.2poag.com Schmid & Partner Engineering AG Technical Note 01.06.15—1 June 2002

Calibration Laboratory of Schmid & Partner Engineering AG Zeughausstrasse 43, 8004 Zurich, Switzerland Client ‘ADT (Auden) ON CERTIFICATE Object(s) ET3DV6 — SN: 1687 Calibration procedure(s) QA CAL—01.v2 Calibration procedure for dosimetric E—field probes Caltbration date: August26, 2004 Condition of the calibrated item |In‘Tolérance‘(according to the specific calibration document) This calibration certficate documents the traceabiily to national standards, which realze the physical units of measurements (S1). The measurements and the uncertainties wih confidence probabilty are given on the following pages and are part of the certficate, All callbrations have been conducted in the closed laboratory facity: environment temperature 22 +/~ 2 degrees Celsius and humidity < 75%. Calibration Equipment used (M&TE criical for callbration) Model Type n# Cal Date (Calibrated by. Corticate No.) Scheduled Calieration Power meter EPM E44198 cBsrzesere 5—May—04 (METAS, No 251—00388) May.05 Power sensor E4412A mysrags27? 5—May—04 (METAS, No 25100388) May05 Reference 20 dB Attenuator Shi: sose (206) 3—May—04 (METAS, No 25+00389) May05 Fluke Process Calibrator Type 702 SN: 6205803 8—Sep—03 (Sintrel SCS No. E030020) Sep04 Power sensor HP 848 1A myt082180 18—8ep—02 (SPEAG, in house check Oo3) In house check: Oct05 RF generator HP 8684G usss42u01700 4—Aug99 (SPEAG,in house check Augh2) in house check: Augo5 Network Analyzer HP 8753E ussrsaoses 18—0c—01 (SPEAG, in house check Oo03) In house check: Oct05 Name Function Signature Caliorated by Nico Vetiedi Technician W Approved by: Katje Pokoic Laboralory Director /Z ; %z Date issued:August28, 2004 This callbrtion cortficate is issued as an intermediate solution untl the accreditation prosess (based on I8C/EC 17025 International Standard) for Calloration Laboretory of Schmid & Rartner Enginesring AG is complated. 880—PO301061—A Page 1 of 8

Probe ET3DVCO SN:1687 Manufactured: May 28, 2002 Last calibrated: November 24, 2003 Recalibrated: August 26, 2004 Calibrated for DASY Systems (Note: non—compatible with DASY2 system!) Page 2 of 8

ET3DV6 SN: 1687 August 26, 2004 DASY — Parameters of Probe: ET3DV6 SN:1687 Sensitivity in Free Space Diode Com pressionA NormxX 1.87 uVi(Vim) DCPX 95 mV Norm¥ 1.84 uVi(V/im) DCPY 95 mV NormZ 1.64 pV/(Vim) DCPZ 95 mV Sensitivity in Tissue Simulating Liquid (Conversion Factors) Plese see Page 7. Boundary Effect Head 900 MHz Typical SAR gradient: 5 % per mm Sensor Center to Phantom Surface Distance 3.7 mm 4.7 mm SAR, (%] Without Correction Algorithm 10.4 6.1 SAR,, [%] With Correction Algorithm 0.3 0.5 Head 1800 MHz Typical SAR gradient: 10 % per mm Sensor Center to Phantom Surface Distance 3.7 mm 4.7 mm SAR,, (%] Without Correction Algorithm 13.0 8.9 SAR,, (%] With Correction Algorithm 0.2 0.1 Sensor Offset Probe Tip to Sensor Center 2.7 mm Optical Surface Detection in tolerance The reported uncertainty of measurementis stated as the standard uncertainty of measurement multiplied by the coverage factor k=2, which for a normal distribution corresponds to a coverage probability of approximately 95%. * numerical Incarzation parameter: uncertainty not required Page 3 of 8

ET3DV6 SN: 1687 August 26, 2004 Frequency Response of E—Field ( TEM—Cell:fi110, Waveguide R22) frequency response = s 8 s e 8 0.80 500 1000 1500 2000 2500 3000 fmha) —6—TEM —0—R22 Page 4 of 8

ET3DV6 SN:1687 August 26, 2004 Receiving Pattern (¢ ), 0 = 0° £= 900 MHz, TEM cell ifi110 £= 1800 MHz, WG R22 y *A AMZ 3 t CA ;fi% "' <@—X <@—Y¥ —e—2 —O—Tot ~8—X <@—¥ <@—20 —O0—Tot 1.00 0.80 —0—30 MHz 0.60 —8—100 MHz 0.40 0.20 —&—300 MHz error{dB] 0.00 ——900 MHz —0.20 —®—1800 MHz —0.40 —a—2500 MHz —0.60 —0.80 —1.00 Axial Isotropy Error < * 0.2 dB Page 5 of 8

ET3DV6 SN:1687 August 26, 2004 Dynamic Range f(SARneaq) ( Waveguide R22 ) 1.E+7 1.E+6 1.6+5 1624 1.E+3 1.E+2 1641 1.E+0 0.0001 0.001 0.01 0.4 1. 10. 100. mWicm? —@—not compensated —6— compensated 1.0 2 o errror{dB] 6 —2.0 0.001 0.01 0. 1 10 100 mWicm® Probe Linearity Error < x 0.2 dB Page 6 of 8

ET3DV6 SN: 1687 August 26, 2004 Conversion Factor Assessment 1= 900 MHz, WGLS R9 (head) f= 1800 MHz, WGLS R22 (head) 30.0 — 18 | | 3.0 25.0 & «* & 20.0 m 4 §= s <s 15.0 E15 g 5 6 10.0 ® 10 88 5.0 0.0 : 0.0 ——— 0 20 40 so 0 20 40 so z[mm] z[mm] ~G~Andhficel ~5—NMessuensh —0—Analytical —0—Measuremets f[MHz] Validity [MHz]® Tissue Permittivity Conductivity Alpha Depth ConvF Uncertainty 900 800—1000 Head 41.5%5% 0.9725% 0.38 2.58 6.34 £11.3% (k=2) 1800 1710—1910 Head 40.0%5% 14025% 046 2.71 5.16 £11.7% (k=2) 2450 2400—2500 Head 39.215% 1.8025% 0.90 1.93 441 £9.7% (k=2) 200 800—1000 Body 55.0%5% 1.0525% 0.52 210 6.06 £11.3% (k=2) 1800 1710—1910 Body 53.3%5% 1.5225% 0.52 2.88 4.54 £11.7% (k=2) 2450 2400—2500 Body §2.7%5% 1.9525% 1.04 1.62 4.23 £9.7% (k=2) ® The total standard uncertainty is celculated as root—sum—square of standard uncertainly ofthe Conversion Factor at callbration frequency and the standard uncertainty forthe indicated frequency band. Page 7 of 8

ET3DV6 SN: 1687 August 26, 2004 Deviation from Isotropy in HSL Error (0, $), f = 900 MHz Error [dB] m—1.00—0.80 ©—0.80—0.60 M—0.60—0.40 ©—0.40—0.20 ©—0.20—0.00 00—0.20 ©0.20—0.40 ©O40—060 ©0600.80 M0.80—1.00 | Spherical Isotropy Error < % 0.4 dB Page 8 of 8


Document Created: 2005-02-09 01:35:17
Document Modified: 2005-02-09 01:35:17
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