已阅读5页,还剩15页未读, 继续免费阅读
版权说明:本文档由用户提供并上传,收益归属内容提供方,若内容存在侵权,请进行举报或认领
文档简介
RFQuiz1.Whatistheimpedanceoffreespace? 377Ohm2.Whathappenstothenoisefigureofareceiverwhena10dBattenuatorisaddedattheinput?a)Noisefigureincreasesby10dBb)Noisefiguredecreasesby10dBc)NoisefiguredoesntchangeThe formula for cascaded noise figure is:NF(M stages)= 10*log nf1+ (nf2-1)/(gain1) + (nf3-1)/(gain1*gain2) + . + (nfM-1)/(gain1*gain2*.*gainM-1);where each nf and gain value is expressed as a ratio rather than in dB, and M is the total number of stages.The noise figure of an attenuator is equal to its insertion loss (10 dB in this case). Note that per the equation that the noise figure of the first element in the chain is not modified by the gain of preceding stages - as are the subsequent stages noise figures. Therefore, any noise figure added to the front end adds directly to the overall system noise figure - in this case an increase of 10 dB.3.AnRFsystemhasalinearthroughputgainof+10dBandanoutput3rd-orderinterceptpoint(OIP3)of+30dBm.Whatistheinput3rd-orderinterceptpoint(IIP3)?a)+20dBmb)+40dBmc)+30dBm4.Whichfiltertypehasthegreatestselectivityforagivenorder(i.e.,N=5)?a)Besselb)Chebychev(ripple=0.1dB)c)Butterworth5.Whichmixerspuriousproductisa5th-orderproduct?a)1*LO+5*RFb)6*LO-1*RFc)3*LO-2*IF6.A2.8GHzoscillatorisphase-lockedtoa10MHzreferenceoscillatorthathasasingle-sidedphasenoiseof-100dBcat1kHzoffset.Whatisthesingle sidedphasenoiseofthe2.8GHzoscillatorat1kHzoffset?a)-48.6dBcb)-100dBcc)-51.1dBcWhen an oscillator (2.8 GHz in this case) is phase-locked (PLO) to a reference source (10 MHz in this case), the phase noise is increased in amplitude by an amount equal to 20*log (fPLO/fRef) + 2.5 dB, where the additional 2.5 dB (rule of thumb) is due to phase noise added by the phase locking circuitry. This explains why an extremely low phase noise reference oscillator is required when being used with a microwave frequency PLO.-100 dBc + 20*log (2800/10) + 2.5 dB = -48.6 dBc7.Whatisthepowerofa2Vpk-pksinewaveacrossa50ohmload?a)-20.0dBmb)+10.0dBmc)+19.0dBm8.Which2-portS-parameteriscommonlyreferredtoasreverseisolationinanamplifier?a)S21b)S22c)S12Common names for each of the four 2-portS-parameters are:S11 : input return lossS21 : forward gainS12 : reverse isolation (or reverse gain)S22 : output return loss9.WhataretheminimumandmaximumcombinedVSWRlimitsataninterfacecharacterizedbya1.25:1VSWRanda2.00:1VSWR?a)1.75:1(min),2.25:1(max)b)1.60:1(min),2.50:1(max)c)0.75:1(min),3.25:1(max)VSWR (max) = VSWR1 * VSWR2 : 1VSWR (min) = VSWR1 / VSWR2 : 1, where VSWR1 VSWR2.10.Anidealdirectionalcouplerhasadirectivityof25dBandanisolationof40dB.Whatisitscouplingvalue?a)65dBb)40dBc)15dBA directional coupler is characterized by five main parameters as follows:1. Frequency band of operation.2. Power coupling expressed as dB down from the input power level.3. Isolation of the coupled port from the output port (essentially coupling factor from the output port to the coupled port)4. Directivity, which is mathematically the difference between the magnitudes of the isolation and the coupling. If the coupler in this case had 0 dBm signals applied to both the input and output ports, the coupled port would see -15 dBm from the input port and -40 dB from the output port, hence, an isolation of 25 dB.Coupling = 40 dB - 25 dB = 15 dBRFQuiz#21.OnaSmithchart,whatdoesapointinthebottomhalfofthechartrepresent?a)Aninductiveimpedanceb)Acapacitiveimpedancec)Powersaturation2.WhilewereonthesubjectofSmithcharts,whatistheimpedanceofthepointatthefarleftedgeofthecenterhorizontalline?a)Infiniteohms(opencircuit)b)Zeroohms(shortcircuit)c)50ohmmatch3.Asingle-conversiondownconverterusesahigh-sidelocaloscillator(LO)totranslatetheinputradiofrequency(RF)toanintermediatefrequency(IF).WillspectralinversionoccuratIF?a)Yes,alwaysb)No,neverc)SometimesSpectral inversion occurs when high frequencies within the input signal bandwidth are translated to low frequencies in the output bandwidth, and vice versa. Since a downconversion is being performed, the lower sideband of the mixing process is extracted, hence the difference between the LO frequency and the RF frequency is desired. Consider the following parameters and how spectral inversion occurs.RF input frequency band : fc = 1250 MHz, BW = 100 MHz (1200 - 1300 MHz).LO frequency : 1600 MHz.IF output frequency band : fc = 350 MHz, BW = 100 MHz (300 - 400 MHz).When the lower frequency of the input band is subtracted from the LO frequency (1600 MHz - 1200 MHz = 400 MHz) a larger frequency is obtained than when the higher frequency of the input band is subtracted from the LO frequency (1600 MHz - 1300 MHz = 300 MHz). This means that the output spectrum is the mirror image of the input spectrum.How to avoid spectral inversion? Always use a low-side LO (LO frequency below RF input frequency band) for mixing, or ensure that an even number of spectral inversions are performed in the converter (i.e., two stages of conversion with high-side LOs).4.Whathappenstothenoisefloorofaspectrumanalyzerwhentheinputfilterresolutionbandwidthisdecreasedbytwodecades?a)20dBincreaseb)20dBdecreasec)40dBdecreaseThe input filter bandwidth determines the amount of power that will be present at the detector circuitry. Since the detector performs a power integration function, it sums all of the incident power across the band. Decreasing the bandwidth by a factor of 100 (two decades) allows one one-hundredth of the amount of power to reach the detector, which in term of decibels is:10*log( 1/100) = -20 dB.5.Whatisaprimaryadvantageofaquadraturemodulator?a)LowLOpowerrequiredb)Fourseparateoutputsc)Single-sidebandoutput6.WhatismeantbydBiasappliedtoantennas?a)Isolationindecibelsb)Physicalsizerelativetointrinsicantennasc)Gainrelativetoanisotropicradiator7.Whatisthepowerdynamicrangeofanideal12-bitanalog-to-digitalconverter(ADC)?a)36.12dBb)120dBc)72.25dBAn ideal 12-bit ADC can assume 212(4,096) unique voltage levels. Since power is proportional to the square of the voltage, the maximum power sample value is 40962(16,777,216) times the minimum power sample value. Therefore the dynamic range is 10*log (16,777,216) = 72.25 dB.A rule of thumb is 6 dB per bit.8.Anideal10dBattenuatorisaddedinfrontofaloadthathasa2.00:1VSWR.WhatistheresultingVSWRoftheload+attenuator?a)1.07:1b)2.10:1c)12.0:1VSWR is related to return loss (RL) according to VSWR = 10(RL/20) + 1 / 10(RL/20) - 1. It follows that increasing the return loss will result in a lower VSWR. The RL of a 2.00:1 VSWR is 9.542 dB. Add the 10 dB attenuator for a total RL of 2*10 dB + 9.542 dB = 29.542 dB. Convert back to VSWR using the given formula for a value of 1.07:1.Why add twice the attenuator value to the return loss? Return loss is the total decrease in signal strength in passing through the attenuator and being reflected back through the attenuator. Hence, the signal is decreased by twice the attenuator value.9.Whatisthethermalnoisepowerina1MHzbandwidthwhenthesystemtemperatureis15degreesCelsius(assumegainandnoisefigureare0dB)?a)-114.0dBm(ina1MHzbandwidth)b)-114.0dBmc)-114.0dBm/HzThermal noise power density is governed by the equation 10*log (k*T*B*1000) dBm, where k is the Boltzmann constant. T is the temperature in degrees Kelvin, and B is the bandwidth in Hertz. Multiplication by 1000 is to convert watts to milliwatts. A rule of thumb for temperatures near 15 C is to begin with a thermal noise density of -174 dBm/Hz, and scale accordingly (add 10 dB per decade of increased bandwidth).10.Twoequalamplitudetoneshaveapowerof+10dBm,andgenerateapairofequalamplitude3rd-orderintermodulationproductsat-20dBm.Whatisthe2-tone,3rd orderinterceptpointofthesystem?a)+40dBmb)+25dBmc)+20dBm2-tone, 3rd-order intermod products increase 3 dB in power for every 1 dB increase in tones that produce them. That means the intermods increase in power at a rate of 2 dB per 1 dB relative to the tone power. The 2-tone, 3rd-order intercept point is defined as the theoretical point where the two original tones and the two 3-rd-order products would have equal power (not possible in real systems due to saturation limits).If the two original tones have a power of +10 dBm and the 3rd-order products have a power of -20 dBm, then the intercept point will be at +10 dBm + (+10) - (-20)/2 dB = +10 dBm + 15 dB = +25 dBm.RFQuiz#31.Whatisaprimaryadvantagetousing90degree(quadrature)hybridcouplersinamplifierdesigns?a)Widerbandwidthpossibleb)Lownoisefigurec)Input/outputimpedancenotdependentondevicesaslongasdeviceimpedancesareequalDue to the physical construction of the quadrature coupler, as long as the two devices between the couplers exhibit identical impedances the input and output impedances will exhibit the intrinsic coupler impedance. For example, if matched transistors with input impedances of 12 - j5 are connected between to quadrature couplers that have an intrinsic impedance of 50 + j0 , then a 50 + j0 impedance would be exhibited at the circuit input (similar for the output).2.Whyisthereafrequencytermintheequationforfree-spacepathloss?a)Thereisnofrequencytermb)Atmosphericabsorptionc)AntennageometryrequiresitAntennas are an indispensable part of all wireless systems. There is no frequency dependency in the free-space power density equation as emitted from an isotropic radiator. Free-space power flux density decreases with distance due to energy being spread over the surface of a sphere, hence:Pdensity = Ptransmitter / (4* d2) W / m2, where d is the distance in meters from the origin.However, the gain of the receiving antenna, including its effective area (Ae) is:G = Greceiver* l2/ (4)Total path loss = 20 * log (4* d / l) dB.3.Ifanamplifierhasanoisetemperatureof60K,whatisitsnoisefigureforanambienttemperatureof290K?a)8.0dBb)80dBc)0.82dBConversion from noise temperature to noise figure is a straightforward process.NF = 10 * log (NT / Ta) + 1 dB, where Tais the ambient temperature.4.Whatisaprimaryadvantageofoffset-quadrature-phase-shift-keying(OQPSK)overstandardQPSK?a)Greaterdataratespossibleb)Greaterspectralefficiencyc)MoreconstantenvelopepowerOffset quadrature phase-shift keying (OQPSK) is a constant-envelope modulation that has no 180-deg phase shifts and, therefore, has a much higher spectral containment than non-offset quadrature phase shift keying (QPSK) when transmitted over band-limited nonlinear channels.5.Amixerhasthefollowinginputfrequencies:RF=800MHz,LO=870MHz.Thedesiredoutputfrequencyis70MHz.Whatistheimagefrequency?a)940MHzb)1670MHzc)140MHzBy definition, the image frequency for any combination of input and LO frequencies is:fimage= 2 * fLO- finput.For any mixer, there are two input frequencies that, when mixed with the LO frequency, will generate the desired output frequency. In this example, the 70 MHz output can be generated either by taking 870 MHz - 800 MHz (desired), or by taking 940 MHz - 870 MHz (undesired).6.Whatisthespurious-freedynamicrangeofasystemwithIP3=+30dBmandaminimumdiscerniblesignal(MDS)levelof-90dBm?a)80dBb)120dBc)60dBa) 80 dB.Spurious-free dynamic range (SFDR) is the maximum signal power above the minimum discernible signal (MDS) power level where two tones generate 2nd-order intermodulation products equal in power to the MDS. Input signals above that level will generate 2nd-order products that are greater in power than the MDS power level. MDS is generally defined as the noise power plus the minimum signal-to-noise ratio (SNR)One form of the equation is: SFDR = 2 / 3 * (IP3 - MDS) dB.7.Aspectrumanalyzerdisplaysacomponentat10MHz0dBm,30MHz-10dBm,50MHz-14dBm,70MHz-17dBm,andalloftheotheroddharmonicsuntiltheydisappearintothenoise.Whatwasthemostlikelyinputsignalthatcausedthespectrum?a)A10MHzsquarewave(0Vdc)b)A10MHztrianglewave(0Vdc)c)A10MHzcosinewave(0Vdc)The Fourier series for a square wave with a 0 Vdc bias is the fundamental frequency and all of its odd harmonics. Amplitudes are scaled as the reciprocal of the harmonic number; in terms of power, the amplitudes are scaled according to 20 * log (1 / N) dB. A 10 MHz triangle wave also contains the odd harmonics, but amplitudes fall off according to the reciprocal of the square of the harmonic number, 40 *log (1 / N) dB.8.OnwhichsideofarectangularwaveguideisanE-bendmade?a)Thelongdimensionb)Theshortdimensionc)TheinsideIn a rectangular waveguide, the E-plane is in the direction of the short dimension while the H-plane is in the direction of the long dimension. The type of bend is determined by which side is curved for the bend. A useful mnemonic is the short dimension is the Easy side to bend, while the long dimension is the Hard side to bend.9.Duringanetworkanalyzercalibration,whyarebothashortcircuitandanopencircuitused?a)Theyaverageto50ohmsinanRFsystemb)Todeterminethecharacteristicimpedanceofthemeasurementsystemc)Bothareeasytoproducetoathighaccuracy10.Whatisthefirstharmonicof1GHz?a)1GHzb)2GHzc)10GHzRFQuiz#41.Whichofthefollowingcancausefrequencyintermodulationproductsinasystem?a)Onlysemiconductorjunctionslikediodesandtransistors(amplifiers)b)Cableconnectors,boltedorrivetedantennapanels,isolatorsandcirculatorsc)Botha)andb)Intermodulation products are generated whenever currents of different frequencies flow in a nonlinear junction.2.Whatisthemeltingtemperatureofstandard60/40,tin/leadsolder?a)100C(212F)b)250C(482F)c)186C(386F)3.Whatisthefrequencybandforthe900MHzGSMcellularband?a)Tx:880-915MHz/Rx:925-960MHzb)Tx:824-849MHz/Rx:869-894MHzc)Thereisno900MHzGSMband4.WhatdoesGSMstandfor?a)GeneralSystemforMobilephonesb)GreaterSpectrumforMobilephonesc)GlobalSystemforMobileCommunication5.WhatdoesPOTSstandfor(incommunications)?a)PlainOldTelephoneSystemb)PersOnalTelephonySystemc)PersonalOrbital&TerrestrialSatellite6.Whichofthesepairsofmaterialsinthetriboelectricserieshavethegreatestchargetransferpotential?a)Silk&Woolb)RubberBalloon&Celluloidc)Glass&HardRubber7.AlongwhichsideofrectangularwaveguideisanEbendmade?a)Longersideb)Shortersidec)Eitherside8.WhatisthelowestmodulationindexatwhichanFMcarrierissuppressed?a)2.40b)p(3.1416)c)OnlyAMcarrierscanbesuppressedDepending on the modulation index (m) chosen, the carrier and certain sideband frequencies may actually be suppressed. Zero crossings of the Bessel functions,Jn(b), occur where the corresponding sideband, n, disappears for a given modulation index, b. The carrier is the 0th sideband, so n=0. The next time the carrier disappears is for m=5.49.9.Howmuchcurrentisrequiredthroughthehumanbodytocauseanonsettomuscularparalysisduringelectrocution?a)Voltageistheculpritduringelectrocution,notcurrentb)21mAc)amp10.Atwhatfrequencyiselectromagneticenergymaximallyabsorbedduetooxygenintheatmosphere?a)22GHzb)Onlywaterintheatmosphereabsorbselectromagneticenergyc)63GHzRFQUIZ#5Thisquiztestsyourrecognitionoflogosfromcompanies*thatareleadersintheRFindustry.Insomecases,partofthestandardlogowascroppedbecauseithadthecompanynameincluded.Printingoutthispagetofillintheblanksisprobablythebestwaytogoaboutthispuzzle.Hoveryourcursoroveralogotoseeahintastowhattypeofproductitmanufactures.AmericanTechnicalCeramics(ATC)PiconicsChannelMicrowaveMarkiMicrowaveScientificAtlantaAnadigicsNationalInstrumentsRemecAnalogDevicesDatelAndrewCorporationHittiteMicrowaveDeltaPowerCubeAgilentTechnologiesSynergyMicrowavePowerOneCypressSemiconductorConnecticutMicrowaveMiteqVicorNationalSemiconductorMauryMicrowaveCinchStanfordMicrodevicesHuber+SuhnerJohansonDielectricsSageLabsAnsoftAtlanticMicrowaveIntusoftDallasSemiconductorMerrimacIndustriesAppliedRadioLabsTexasInstrumentsTrilithicRohde&SchwarzVoltronicsGeneralMicrowaveDielectricLaboratoriesRFMicroDevicesGHzTechnologyRFQuiz#6:WirelessCommunicationsFundamentals1.WhichofthefollowingWLANstandardsisonadifferentfrequencybandthantheothers?a)802.11ab)802.11bc)802.11gd)802.11n802.11b/g/n are all in the 2.4 GHz ISM band, 802.11a is in the 5 GHz ISM band.2.Whatdoesthetermruggednessrefer
温馨提示
- 1. 本站所有资源如无特殊说明,都需要本地电脑安装OFFICE2007和PDF阅读器。图纸软件为CAD,CAXA,PROE,UG,SolidWorks等.压缩文件请下载最新的WinRAR软件解压。
- 2. 本站的文档不包含任何第三方提供的附件图纸等,如果需要附件,请联系上传者。文件的所有权益归上传用户所有。
- 3. 本站RAR压缩包中若带图纸,网页内容里面会有图纸预览,若没有图纸预览就没有图纸。
- 4. 未经权益所有人同意不得将文件中的内容挪作商业或盈利用途。
- 5. 人人文库网仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对用户上传分享的文档内容本身不做任何修改或编辑,并不能对任何下载内容负责。
- 6. 下载文件中如有侵权或不适当内容,请与我们联系,我们立即纠正。
- 7. 本站不保证下载资源的准确性、安全性和完整性, 同时也不承担用户因使用这些下载资源对自己和他人造成任何形式的伤害或损失。
最新文档
- 空调压缩机市场发展分析及行业投资战略研究报告
- 山东省梁山一中、嘉祥一中2024年高三下学期第五次调研考试语文试题含解析
- 陕西西安高新一中2023-2024学年高考适应性考试语文试卷含解析
- 湖南省湘潭市名校2023-2024学年高三压轴卷语文试卷含解析
- 2024届湖北省孝感市孝南区等五校中考历史押题试卷含解析
- 湖北省黄冈市浠水县2024年中考历史适应性模拟试题含解析
- 2024届江苏省常州市武进星辰实验校毕业升学考试模拟卷历史卷含解析
- 2024届山东省济宁市邹城一中高三下学期一模考试语文试题含解析
- 辽宁省葫芦岛市协作校2024年高三第二次模拟考试语文试卷含解析
- 2024届浙江省温岭市实验校中考数学考前最后一卷含解析
- 【基于近五年数据的上汽集团公司盈利能力分析报告11000字(论文)】
- 空间几何的外接球和内切球问题-教学设计
- 通信工程投标专家继续教育题库(附答案)
- 北京市初中学业水平考试体育与健康知识模拟练习题(含答案)
- 北京市-实验动物上岗证培训考试题库
- 《中国民间文学概论(第三版)》第四章 传说
- 新疆维吾尔自治区保障性住房建设标准(正文)
- 第十章 新闻传播与人格权利
- 附件瓦斯隧道施工指导意见
- 《茶树种质资源概述》
- 钉钉操作指南考勤打卡日志钉盘
评论
0/150
提交评论