EMISSIONS TEST REPORT - FCC ID
EMISSIONS TEST REPORT(FULL COMPLIANCE)Report Number: 102502065BOX-002Project Number: G102502065Report Issue Date: 06/26/2016Model(s) Tested:Model(s) Not Tested but declared equivalent by the client:Standards:Kaye Validator AVS X2015Kaye Validator AVS X2015ECFR47 FCC Part 15 Subpart C (15.247): 06/2016,CFR47 FCC Part 15 Subpart B: 06/2016,RSS-247 Issue 1: 05/2015,ICES-003 Issue 6: 01/2016 updated 04/2016,RSS-Gen Issue 4: 11/2014,RSS-102 Issue 5: 03/2015,KDB 558074 D01 DTS Meas Guidance v03r04: 01/2016Tested by:Intertek Testing Services NA, Inc.70 Codman Hill RoadBoxborough, MA 01719USAClient:Amphenol Thermometrics, Inc.967 Windfall RdSaint Marys, PA 15857-3333USAReport prepared byReport reviewed byNaga Suryadevara/EMC EngineerKouma Sinn / EMC Staff EngineerThis report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement betweenIntertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of theagreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement,for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permitcopying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marksfor the sale or advertisement of the tested material, product or service must first be approved in writing byIntertek. The observations and test results in this report are relevant only to the sample tested. This report byitself does not imply that the material, product, or service is or has ever been under an Intertek certificationprogram.Non-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 1 of 157
IntertekReport Number: 102502065BOX-002Issued: 06/26/2016Table of Contents1Introduction and Conclusion . 32Test Summary . 33Client Information . 44Description of Equipment Under Test and Variant Models. 45System Setup and Method . 66Maximum Peak Output Power and Human RF exposure . 77Maximum Power Spectral Density. 2286 dB and Occupied Bandwidth . 369Band Edge Compliance . 5910Transmitter Radiated Spurious Emissions . 7211Digital Devices Radiated Spurious Emissions . 13612AC Mains Conducted Emissions . 15013Revision History . 157Non-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 2 of 157
IntertekReport Number: 102502065BOX-0021Issued: 06/26/2016Introduction and ConclusionThe tests indicated in section 2.0 were performed on the product constructed as described in section 4.0.The remaining test sections are the verbatim text from the actual data sheets used during theinvestigation. These test sections include the test name, the specified test Method, a list of the actual TestEquipment Used, documentation Photos, Results and raw Data. No additions, deviations, or exclusionshave been made from the standard(s) unless specifically noted.Based on the results of our investigation, we have concluded the product tested complies with therequirements of the standard(s) indicated. The results obtained in this test report pertain only to the item(s)tested. Intertek does not make any claims of compliance for samples or variants which were not tested.2Test SummarySectionTest full nameResult3Client Information--4Description of Equipment Under Test and Variant Models--5System Setup and Method--6Maximum Peak Output Power and Human RF exposure(CFR47 FCC Part 15 Subpart C: 06/2016, Section 15.247 (b)(3)RSS-247 Issue1: 05/2015RSS-102 Issue 5: 03/2015)Pass7Maximum Power Spectral Density(CFR47 FCC Part 15 Subpart C: 06/2016, Section 15.247 (e)RSS-247 Issue1: 05/2015)Pass86 dB Bandwidth and Occupied Bandwidth(CFR47 FCC Part 15 Subpart C: 06/2016, Section 15.247 (a)(2)RSS-247 Issue1: 05/2015)Pass9Band Edge Compliance(CFR47 FCC Part 15 Subpart C: 06/2016, Section 15.247 (d)RSS-247 Issue1: 05/2015)Pass10Transmitter radiated emissions(CFR47 FCC Part 15 Subpart C: 06/2016, Section 15.247 (d)RSS247 Issue1: 05/2015)Pass11Digital Devices Radiated Spurious Emissions(FCC 47CFR Part 15 Subpart B: 06/2016, ICES-003 Issue 6:01/2016 updated 04/2016)Pass12AC Mains Conducted Emissions(FCC 47CFR Part 15 Subpart B :06/2016, ICES-003 Issue 6:01/2016 updated 04/2016)Pass13Revision HistoryNon-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015--Page 3 of 157
IntertekReport Number: 102502065BOX-0023Issued: 06/26/2016Client InformationThis EUT was tested at the request of:Client:Amphenol Thermometrics, Inc.967 Windfall RdSaint Marys, PA 15857-3333USAContact:Telephone:Fax:Email:Matt Schwabenbauer(814) m4Description of Equipment Under Test and Variant ModelsManufacturer:Amphenol Thermometrics, Inc.967 Windfall RdSaint Marys, PA 15857-3333USADescriptionAdvanced validationsystemEquipment Under TestManufacturerModel NumberAmphenolKaye Validator X2015Thermometrics Inc.Receive Date:Received Condition:Type:Serial Number1602001905/31/2016GoodProductionDescription of Equipment Under Test (provided by client)Advanced Validation System.Rated Voltage120-240 VACEquipment Under Test Power ConfigurationRated CurrentRated Frequency1.8 A50/60 HzNumber of Phases1Operating modes of the EUT:No. Descriptions of EUT Exercising12Transmit modeReceive modeSoftware used by the EUT:No. Descriptions of EUT Exercising1CERHOST.exeNon-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 4 of 157
IntertekReport Number: 102502065BOX-002Issued: 06/26/2016Radio/Receiver Characteristics2412 - 2462 MHzFrequency Band(s)DSSS, OFDMModulation Type(s)4.41 dBmMaximum Output PowerCH1, CH6, CH11Test Channels18.19 MHzOccupied BandwidthFrequency Hopper: Number of HoppingNAChannelsNAFrequency Hopper: Channel Dwell TimeFrequency Hopper: Max interval betweenNAtwo instances of use of the same channelMIMO Information (# of Transmit andNAReceive antenna ports)StandaloneEquipment TypeETSI LBT/AdaptivityNAETSI Adaptivity TypeNAETSI Temperature Category (I, II, III)NAETSI Receiver Category (1, 2, 3)NAIntegralAntenna Type and GainVariant Models:The following variant models were not tested as part of this evaluation, but have been identified by themanufacturer as being electrically identical models, depopulated models, or with reasonable similarity tothe model(s) tested. Intertek does not make any claims of compliance for samples or variants which werenot tested.Kaye Validator AVS X2015ENon-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 5 of 157
IntertekReport Number: 102502065BOX-0025System Setup and MethodIDDescription12Power Supply CableThermocouple Cables3EthernetDescriptionLaptopTablet – MC-F5teRouter5.1Issued: minationNoneNoneNoneNoneYesNoneAC MainsThermocouplesWirelessRouterSupport EquipmentManufacturerModel NumberDell Inc.Latitude E6420MotionCFT-003TRENDnetTEW-752druSerial NumberVVF52 A00NoneC1451RD300820Method:Configuration as required by CFR47 FCC Part 15 Subpart C (15.247): 06/2016, CFR47 FCC Part 15Subpart B: 06/2016, RSS-247 Issue 1: 05/2015, ICES-003 Issue 6: 01/2016 updated 04/2016, RSS-GenIssue 4: 11/2014 RSS-102 Issue 5: 03/2015, ANSI C63.4: 2014, ANSI C63.10:2013, and KDB 558074D01 DTS MeasGuidance v03r04: 01/2016.5.2EUT Block Diagram:TabletThermocouplesAC MainsEUTRouterNon-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015LaptopPage 6 of 157
IntertekReport Number: 102502065BOX-0026Issued: 06/26/2016Maximum Peak Output Power and Human RF exposure6.1MethodTests are performed in accordance with FCC Part 15 Subpart C (15.247), ANSI C63.4, ANSI C63.10,KDB558074, and RSS-247.The 10m ALSE is 13m (Length) x 21m (Depth) x 10m (Height) with the effective size in terms of space from thetips of the absorber is 12m (Length) x 20m (Depth) x 8.5m (Height). This chamber achieves broadbandperformance using a unique arrangement of hybrid and ferrite tile absorber. This chamber has a built in 3mdiameter turntable (Embedded type). The metal structure of the table makes electrical connection around theentire circumference of the turntable to the ground plane with a metal brush type connection. The turntable islocated on one end of the chamber and the antennas are mounted 3 and 10 meters away at the other end ofthe chamber on the adjustable an Antenna Mast. The antenna mast is a non-conductive bore sighted type withremote control of antenna height and polarization. The Antenna Mast and the turntable can be remotelycontrolled through the controller located in the adjacent Control room. A Styrofoam table 80 cm high is used fortable-top equipment.Measurement UncertaintyMeasurementRadiated Emissions, 10mRadiated Emissions, 3mRadiated Emissions, 3mRadiated Emissions, 3mRadiated Emissions, 3mRadiated Emissions, 3mFrequencyRange30-1000 MHz30-1000 MHz1-6 GHz6-15 GHz15-18 GHz18-40 GHzAs shown in the table above our radiated emissionsExpandedUncertainty(k 2)4.6 dB5.3 dB4.5 dB5.2 dB5.0 dB5.0 dBUcispr6.3 dB6.3 dB5.2 dB5.5 dB5.5 dB5.5 dBU lab is less than the corresponding U CISPR referencevalue in CISPR 16-4-2 Table 1, hence the compliance of the product is only based on the measured value,and no measurement uncertainty correction is required, based on CISPR 22 and CISPR 11 (for 2006 andlater revisions) Clause 11.Non-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 7 of 157
IntertekReport Number: 102502065BOX-002Issued: 06/26/2016Sample CalculationThe field strength is calculated by adding the Antenna Factor and Cable Factor, and subtracting theAmplifier Gain (if any) from the measured reading. The basic equation with a sample calculation is asfollows:FS RA AF CF - AGWhereFS Field Strength in dB V/mRA Receiver Amplitude (including preamplifier) in dB VCF Cable Attenuation Factor in dBAF Antenna Factor in dBAG Amplifier Gain in dBIn the following table(s), the reading shown on the data table reflects the preamplifier gain. An examplefor the calculations in the following table is as follows.Assume a receiver reading of 52.0 dB V is obtained. The antenna factor of 7.4 dB and cable factor of 1.6dB is added. The amplifier gain of 29 dB is subtracted, giving a field strength of 32 dB V/m. This value indB V/m was converted to its corresponding level in V/m.RA 52.0 dB VAF 7.4 dB/mCF 1.6 dBAG 29.0 dBFS 32 dB V/mTo convert from dB V to V or mV the following was used:UF 10(NF / 20) where UF Net Reading in VNF Net Reading in dB VExample:FS RA AF CF – AG 52.0 7.4 1.6 – 29.0 32.0UF 10(32 dB V / 20) 39.8 V/mAlternately, when C5 Software is used, the “Level” includes all losses and gains and is compared directlyin the “Margin” column to the “Limit”. “AF” is the Antenna Factor; “PA CL” are Preamp and Cable Loss.These are already accounted for in the “Level” column.Non-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 8 of 157
IntertekReport Number: ��ETS001’Test Equipment Used:DescriptionWeather StationEMI Receiver (20 Hz - 40 Ghz)Cables 145-400 145-402 145-404 145-4081-18GHz DRG Horn AntennaSoftware Utilized:NameEMI Boxborough.xls6.3Issued: 06/26/2016ManufacturerDavis InstrumentsRohde & SchwarzHuber SuhnerETS-LindgrenModel7400ESIB 403m Track B 259Cal cturerVersionIntertek08/27/2010Cal :The sample tested was found to Comply. The EIRP must not exceed 30 dBm. The Human RF Exposure2limit is 1 mW/cm .Non-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 9 of 157
IntertekReport Number: 102502065BOX-0026.4Issued: 06/26/2016Setup Photographs:Non-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 10 of 157
IntertekReport Number: 102502065BOX-0026.5Issued: 06/26/2016Test Data:IntertekOuput PowerCompany: Amphenol Thermometrics IncAntenna & Cables:Model #: KAYE VALIDATOR X 2015HFBands: N, LF, HF, SHFAntenna: ETS002 05-13-2017.txtSerial #: 16020119Cable(s):Engineers: Naga SuryadevaraLocation: 10M145-416 1-18 GHz 10-08-16.txtBarometer: DAV004NONE.Filter:NONE45, 48%1004,1008,mbars05/31/2016Date(s): 06/01/2016Project #: G102502065Standard: FCC Part 15 Subpart C 15.247Receiver: R&S ESI (145-128) 03-10-2017PreAmp: NoneTemp/Humidity/Pressure: 22, 21 CLimit Distance (m): 3Test Distance (m): 3PreAmp Used? (Y or N):NVoltage/Frequency:120 VAC 60 HzFrequency Range: Frequencies ShownNet Reading (dBuV/m) Antenna Factor (dB1/m) Cable Loss (dB) - Preamp Factor (dB) - Distance Factor (dB)Peak: PK Quasi-Peak: QP Average: AVG RMS: RMS; NF Noise Floor, RB Restricted Band; Bandwidth denoted as RBW/VBWAnt.DetectorPol.Type(V/H)Frequency dBmdBmdBBandwidthNote: RF Output Power, Channel 1 - 802.11b DSSS Data rate - 1 Mbps, 20 MHz BW, 18 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 465/10 15/10 241/3 681/3 MHzNote: RF Output Power, Channel 1 - 802.11b DSSS Data rate - 2 Mbps, 20 MHz BW, 18 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .725/10 65/10 .301/3 191/3 MHzNote: RF Output Power, Channel 1 - 802.11b DSSS Data rate - 5.5 Mbps, 20 MHz BW, 18 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 085/10 15/10 931/3 861/3 MHzNote: RF Output Power, Channel 1 - 802.11b DSSS Data rate - 11 Mbps, 20 MHz BW, 18 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 215/10 15/10 081/3 891/3 MHzNon-Specific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X2015Page 11 of 157
IntertekReport Number: PKPKPKPKPKPKPKPKPKPKPKPKPKPKPKIssued: 06/26/2016Note: RF Output Power, Channel 6 - 802.11b DSSS Data rate - 1 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00051.5732.223.720.000.00-7.7130.00-37.71Note: RF Output Power, Channel 6 - 802.11b DSSS Data rate - 2 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00048.5932.223.720.000.00-10.6930.00-40.69Note: RF Output Power, Channel 6 - 802.11b DSSS Data rate - 5.5 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 00052.7932.223.720.000.00-6.4930.00-36.49Note: RF Output Power, Channel 6 - 802.11b DSSS Data rate - 11 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 00053.6432.223.720.000.00-5.6430.00-35.64Note: RF Output Power, Channel 11 - 802.11b DSSS Data rate - 1 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00052.9032.263.760.000.00-6.3030.00-36.30Note: RF Output Power, Channel 11 - 802.11b DSSS Data rate - 2 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00053.5932.263.760.000.00-5.6130.00-35.61Note: RF Output Power, Channel 11 - 802.11b DSSS Data rate - 5.5 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00052.0432.263.760.000.00-7.1630.00-37.16Note: RF Output Power, Channel 11 - 802.11b DSSS Data rate - 11 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm fic Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X20155/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHzPage 12 of 157
IntertekReport Number: PKPKPKPKPKPKPKPKPKPKPKPKPKPKPKIssued: 06/26/2016Note: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00051.0432.173.690.000.00-8.3230.00-38.32Note: RF Output Power, Channel 1 - 802.11g OFDM Data rate - 9 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00048.7432.173.690.000.00-10.6230.00-40.62Note: RF Output Power, Channel 1 - 802.11g OFDM Data rate - 12 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00049.2332.173.690.000.00-10.1330.00-40.13Note: RF Output Power, Channel 1 - 802.11g OFDM Data rate - 18 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00051.4632.173.690.000.00-7.9030.00-37.90Note: RF Output Power, Channel 1 - 802.11g OFDM Data rate - 24 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 00051.7232.173.690.000.00-7.6430.00-37.64Note: RF Output Power, Channel 1 - 802.11g OFDM Data rate - 36 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00050.4432.173.690.000.00-8.9230.00-38.92Note: RF Output Power, Channel 1 - 802.11g OFDM Data rate - 48 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00051.2432.173.690.000.00-8.1230.00-38.12Note: RF Output Power, Channel 1 - 802.11g OFDM Data rate - 54 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm ecific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X20155/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHzPage 13 of 157
IntertekReport Number: PKPKPKPKPKPKPKPKPKPKPKPKPKPKPKIssued: 06/26/2016Note: RF Output Power, Channel 6 - 802.11g OFDM Data rate - 6 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 7.00050.1932.223.720.000.00-9.0930.00-39.09Note: RF Output Power, Channel 6 - 802.11g OFDM Data rate - 9 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00051.8732.223.720.000.00-7.4130.00-37.41Note: RF Output Power, Channel 6 - 802.11g OFDM Data rate - 12 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00049.3332.223.720.000.00-9.9530.00-39.95Note: RF Output Power, Channel 6 - 802.11g OFDM Data rate - 18 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00051.1332.223.720.000.00-8.1530.00-38.15Note: RF Output Power, Channel 6 - 802.11g OFDM Data rate - 24 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 7.00049.1232.223.720.000.00-10.1630.00-40.16Note: RF Output Power, Channel 6 - 802.11g OFDM Data rate - 36 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00050.1532.223.720.000.00-9.1330.00-39.13Note: RF Output Power, Channel 6 - 802.11g OFDM Data rate - 48 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 00052.2332.223.720.000.00-7.0530.00-37.05Note: RF Output Power, Channel 6 - 802.11g OFDM Data rate - 54 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm cific Radio Report Shell Rev. August 2015Client: Amphenol Thermometrics Inc., Model: Kaye Validator AVS X20155/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHz5/10 MHz5/10 MHz1/3 MHz1/3 MHzPage 14 of 157
IntertekReport Number: PKPKPKPKPKPKPKPKPKPKPKPKPKPKPKIssued: 06/26/2016Note: RF Output Power, Channel 11 - 802.11g OFDM Data rate - 6 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 2.00048.1932.263.760.000.00-11.0130.00-41.01Note: RF Output Power, Channel 11 - 802.11g OFDM Data rate - 9 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00050.5232.263.760.000.00-8.6830.00-38.68Note: RF Output Power, Channel 11 - 802.11g OFDM Data rate - 12 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 00052.2632.263.760.000.00-6.9430.00-36.94Note: RF Output Power, Channel 11 - 802.11g OFDM Data rate - 18 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 2.00048.1732.263.760.000.00-11.0330.00-41.03Note: RF Output Power, Channel 11 - 802.11g OFDM Data rate - 24 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 00052.0732.263.760.000.00-7.1330.00-37.13Note: RF Output Power, Channel 11 - 802.11g OFDM Data rate - 36 Mbps, 20 MHz BW, 15 dBmNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm .00049.2132.263.760.000.00-9.9930.00-39.99Note: RF Output Power, Channel 11 - 802.11g OFDM Data rate - 48 Mbps, 20 MHz BWNote: EIRP Obtained by applying the path loss correction for a 3m test distance, E(dBuV/m)@3m - 95.22 dBm 00051.2332.263.760.000.00-7.9730.00-37.9
Tablet – MC-F5te Motion CFT-003 None Router TRENDnet TEW-752dru C1451RD300820 5.1 Method: Configuration as required by CFR47 FCC Part 15 Subpart C (15.247): 06/2016, CFR47 FCC Part 15 Subpart B: 06/2016, RSS-247 Issue 1: 05
The magnetic moments of the fcc/fcc, hcp/hcp twin and fcc/hcp twin-like boundaries in cobalt were investigated by first-principles calculations based on density functional theory. The magnetic moments in fcc/fcc were larger than ofthose the bulkfcc, while the variations in the magnetic moment were complicated in hcp
H2SSIM Results Basin Emissions Units Total Emissions (H2S) 0.071 gms/s kgen 0.25 Total Emissions (H2S) 4922.0 lbs/yr ThetaGen 1.06 Total Emissions (H2S) 2.5 tons/yr KDO 0.05 Total Emissions (H2S) 2.2 tonnes/yr KSO4 10 Emission Flux (H2S) 11.9 gms/m 2 yr kanox 0.006 ThetaOx 1.05 Zone Emissions Zone 1 Zone 2 Zone 3 Zone 4 Units m1 Zone Emissions (H2S) 0.02 0.03 0.02 gms/s n 0.2
E-rate Productivity Center Requesting services (FCC Form 470) Competitive bidding process Ordering services (FCC Form 471) Application review and funding commitments Begin receiving services (FCC Form 486) Invoicing USAC (FCC Form 472 and FCC Form 474)
How will global temperatures change in the future? 2015 Higher Emissions 4.0-6.1oC High Emissions 2.6-3.7oC Lower Emissions 2.0-3.0oC Warming relative to 1850-1900 Current CO 2 emissions are tracking the 'higher emissions' scenario; unless emissions are reduced, the 2oC threshold will be crossed before 2050.
TEST REPORT No.I22Z61813-IOT06 for Honor Device Co., Ltd. Smart Phone RMO-NX3 With FCC ID: 2AYGCRMO-NX3 Hardware Version: HN2RMOM Software Version: 6.1.0.21(C900E21R1P1) Issued Date: 2022-11-04 Note: The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced
AS/NZS CISPR 22: Class A emissions FCC 47 CFR Part 15B: Class A emissions ICES-001: Class A emissions Note In the United States (per FCC 47 CFR), Class A equipment is intended for use in commercial, light-industrial, and heavy-industrial locations. In Europe, Canada, Australia and New Zealand (per CISPR 11) Class A equipment is intended
efforts to measure and reduce statewide greenhouse gas (GHG) emissions. In 2007, the State of Hawaii passed Act 234 to establish the state’s policy framework and requirements to address GHG emissions. The law aims to achieve emission levels at or below Hawaii’s 1990 GHG emissions by January 1, 2020 (excluding emissions from airplanes).
Scope and Sequence for Grade 2- English Language Arts 8/6/14 5 ELA Power Standards Reading Literature and Reading Informational Text: RL 2.1, 2.10 and RI 2.1, 2.10 apply to all Units RI 2.2: Identify the main topic of a multi-paragraph text as well as the focus of specific paragraphs within the text.
