SAR报告模板范文

SARSAR报告模板范文报告模板范文 12 Max Number of Timeslotsin UplinkMax Number of Timeslotsin DownlinkMax TotalTimeslot EGPRSMultislotClass 12 Max Number of Timeslotsin UplinkMax Number of Timeslotsin DownlinkMax TotalTimeslot HSDPA UE Category HSUPA UE Category Operating FrequencyRange s Mode Tx MHz Rx MHz GSM900880 2 914 8925 2 959 8GSM18001710 2 178 4 81805 2 1879 8WCDMA BandI1922 4 1977 62112 4 2167 6Power Class GSM900 4 tested with power level5GSM1800 1 tested withpower level0WCDMA BandI 3 tested withpower controlall upbits TATechnology Shanghai Co Ltd Test ReportReport No RZA XXXX XXXX SARPage8of36Equipment UnderTest EUT is XXXX The detailabout EUT is inchapter1 5inthisreport SAR is tested for GSM900 GSM1800and WCDMA BandI The EUThas aGSM WCDMA antennathat isused forTx Rx The sampleundertestwas selectedby theClient Components listplease referto documentsof themanufacturer 1 6 The MaximumSAR10g Valuesand ConductedPower ofEach TestedMode BodyWorn ConfigurationMode ChannelPosition Separationdistance SAR10g W kg GPRS900 2slots GPRS1800 2slots WCDMABandIMaximum PowerMode MaximumConductedPower dBm Maximum AveragePower dBm GSM900GPRS GMSK X slotsEGPRS GMSK X slotsGSM1800GPRS GMSK X slotsEGPRS GMSK X slotsWCDMABandI Note The detailPower refersto Table10 Power MeasurementResults 1 7 Test DateThe testis performedon XXXX TATechnology Shanghai Co Ltd Test ReportReport No RZA XXXX XXXX SARPage9of362 Operational Conditionsduring Test2 1 General Descriptionof TestProcedures Connectionto the EUT isestablished viaair interfacewith E5515C and the EUTisset tomaximum output power byE5515C The antennaconnected to the output of thebase stationsimulator shall be placedat least50cm awayfrom the EUT The signaltransmitted by the simulatorto theantenna feedingpoint shallbe lowerthan theoutput powerlevel of the EUTby at least30dB 2 2 GSM TestConfiguration For the body SAR tests forGSM900and GSM1800 a municationlink isset upwith aSystem Simulator SS by airlink The EUTis mandedto operateat maximumtransmitting power the powerlever isset to 5 in SARof GSM900 set to 0 in SARof GSM1800 The testsin theband ofGSM900and GSM1800are performed in themode ofGPRS EGPRS Since theGPRS class is12for thisEUT it hasat most4timeslots inuplink and at most4timeslots indownlink the maximumtotal timeslotis5 The EGPRSclassis12for thisEUT it hasat most4timeslots inuplink and atmost4timeslots indownlink the maximumtotal timeslotis5 When SARtestsforEGPRS modeis necessary GMSK modulationshould beused tominimize SARmeasurement errordue tohigher peak to average power PAR ratios inherentin8 PSK Aording tospecification3GPP TS51 010 the maximumpower of the GSMcan dothe power reduction for the multi slot The allowedpower reductionin themulti slot configuration is asfollowing Table1 The allowedpowerreductionin themulti slot configurationNumberoftimeslots inuplink assignmentPermissible nominalreduction ofmaximum output power dB 1020to3 031 8to4 843 0to6 0TATechnology Shanghai Co Ltd Test ReportReport No RZA XXXX XXXX SARPage10of362 3 WCDMA TestConfiguration Asthe SARbody testfor WCDMABandI we establishedthe radiolink throughcall processing The maximum output powerwere verifiedon high middle andlow channelsfor eachtest band aording to3GPP TS34 121with thefollowing configuration 1 12 2kbps RMC 64 144 384kbps RMCwith TPCset to all all 1 s 2 Test loopMode1For theoutputpower the configurationsfor theDPCCH andDPDCH1are asfollowed EUT donot supportthe DPDCH2 n Table2 The configurationsfor theDPCCH andDPDCH1Channel Bit Rate kbps Channel SymbolRate ksps Spreading FactorSpreading CodeNumber Bits SlotDPCCH1515256010DPDCH115152566410303012832206060641 6401xx0328802402401641604804808232096096041640SAR istested with12 2kps RMCand notrequired forother spreadingcodes 64 144 and384kbps RMC and multiple DPDCH n because the maximumoutputpower foreach of these otherconfigurations6GHz Linearity 0 2dB 30MHz to6GHz Directivity 0 3dB inHSL rotation aroundprobe axis 0 5dB intissue material rotation normalto probeaxis Dynamic Range10 W gto 100mW g Linearity 0 2dB noise typically 1 W g Dimensions Overalllength 330mm Tip 20mm Tip diameter 2 5mm Body 12mm Typical distancefrom probetip todipole centers 1mm Figure2 EX3DV4E field ProbeFigure3 EX3DV4E field probeTATechnology Shanghai Co Ltd Test ReportReport No RZA XXXX XXXX SARPage17of36Application Highprecision dosimetricmeasurements inany exposurescenario e g very stronggradient fields Only probewhich enablespliance testingfor frequenciesup to6GHz withprecision ofbetter30 3 2 2 E field ProbeCalibration Eachprobe iscalibrated aordingtoadosimetric assessmentprocedure withauracy betterthan 10 The sphericalisotropy wasevaluated andfound tobe betterthan 0 25dB The sensitivityparameters NormX NormY NormZ the diodepression parameter DCP and theconversion factor ConvF ofthe probe are tested The free space E field fromamplified probeoutputs isdetermined ina testchamber This is performedina TEMcell forfrequencies bellow1GHz and ina waveguide above1GHz forfree space For thefree spacecalibration the probeis placedinthevolumetric centerofthecavity andat theproper orientationwith the field The probeis thenrotated360degrees E field temperaturecorrelation calibrationisperformedinaflatphantomfilled with the appropriatesimulated braintissue The measuredfreespaceE field inthe mediumcorrelates totemperature riseinadielectric medium For temperaturecorrelation calibrationa RFtransparent thermistor based temperatureprobeisusedinconjunction with theE field probe Where t Exposure time 30seconds C Heat capacityof tissue brain ormuscle T Temperature increasedue toRF exposure Or Where Simulated tissueconductivity Tissue density kg m3 3 3 Other TestEquipment3 3 1 Device Holderfor TransmittersConstruction Simple buteffective andeasy to use extensionfor Mounting Device thatfacilitates thetesting oflarger devicesaordingtoIEC62209 2 e g laptops cameras etc It islightweight andTATechnology Shanghai Co Ltd Test ReportReport No RZA XXXX XXXX SARPage18of36fits easilyon theupper partoftheMountingDevicein placeofthephone positioner The extensionis fullypatible with the TwinSAM ELI4and SAMv6 0Phantoms Material POM Acrylic glass Foam TATechnology Shanghai Co Ltd TestReportReport No RZA XXXX XXXX SARPage19of363 3 2 Phantom Theshell correspondstothespecifications ofthe SpecificAnthropomorphic Mannequin Oval Flat phantom definedin IEEE1528 xx CENELEC50361and IEC62209 It enablesthedosimetricevaluation ofwireless portabledevice usageas wellas bodymounted usageat theflatphantomregion A coverprevents evaporationofthe liquid Reference markingsonthephantom allowthe pletesetup ofall predefinedphantom positionsand measurementgrids bymanually teachingthree pointswiththerobot Shell Thickness2 0 2mm FillingVolume Approx 30liters Dimensions190 600 400mm H L W 3 4 Scanning procedureThe DASY4installation includespredefined fileswith remendedprocedures formeasurementsandvalidation They areread only documentfiles anddestined asfully definedbut unmeasuredmasks All test positions head orbody worn aretestedwiththesame configurationof teststeps differingonly inthe griddefinition forthe differenttestpositions The reference and drift measure ments arelocated atthe beginning and endofthebatch process They measurethe fielddrift atone singlepoint intheliquidover theplete procedure The indicateddrift ismainly thevariation ofthe DUT s outputpowerandshould varymax 5 The surface check measurement teststhe opticalsurfacedetectionsystem oftheDASY4system byrepeatedly detectingthe surfacewiththeoptical andmechanical surfacedetector andparing theresults The outputgives thedetecting heightsof bothsystems the differencebetween thetwo systemsandthestandard deviationofthedetection repeatability Air bubblesor refractionintheliquid dueto separationofthesugar water mixturegives poorrepeatability above 0 1mm To preventwrong resultstests areonly executedwhentheliquid isfree ofair bubbles The differencebetween theopticalsurfacedetection andthe actualsurface dependsontheprobe andis specifiedwith eachprobe It doesnot dependonthesurface reflectivityortheprobe angletothesurface within 30 Area ScanThe AreaScan isused asa fastscan intwo dimensionsto findthe areaof highfield valuesbefore runninga detailedmeasurement around the hotspot Before startingthe area scan agrid Figure4 ELI4Phantom TATechnology Shanghai Co Ltd TestReportReportNo RZA XXXX XXXX SARPage20of36spacing of15mm x15mm isset During thescan thedistance oftheprobetothephantom remainsunchanged After finishingareascan thef