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参数资料
| 型号: | HFA3101BZ |
| 厂商: | Intersil |
| 文件页数: | 6/12页 |
| 文件大小: | 0K |
| 描述: | IC TRANSISTOR ARRAY UHF 8-SOIC |
| 标准包装: | 98 |
| 频率: | 0Hz ~ 10GHz |
| 混频器数目: | 1 |
| 噪音数据: | 1.7dB |
| 包装: | 管件 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 8-SOIC |
| 产品目录页面: | 1246 (CN2011-ZH PDF) |
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�
�HFA3101�
�The� use� of� the� HFA3101� as� modulators� has� several�
�advantages� when� compared� to� its� counterpart,� the� diode�
�doublebalanced� mixer,� in� which� it� is� required� to� receive�
�enough� energy� to� drive� the� diodes� into� a� switching� mode� and�
�has� also� some� requirements� depending� on� the� frequency�
�range� desired,� of� different� transformers� to� suit� specific�
�frequency� responses.� The� HFA3101� requires� very� low�
�driving� capabilities� for� its� carrier� input� and� its� frequency�
�response� is� limited� by� the� f� T� of� the� devices,� the� design� and�
�the� layout� techniques� being� utilized.�
�Up� conversion� uses,� for� UHF� transmitters� for� example,� can� be�
�performed� by� injecting� a� modulating� input� in� the� range� of�
�45MHz� to� 130MHz� that� carries� the� information� often� called� IF�
�(Intermediate� frequency)� for� up� conversion� (The� IF� signal� has�
�been� previously� modulated� by� some� modulation� scheme� from� a�
�baseband� signal� of� audio� or� digital� information)� and� by� injecting�
�the� signal� of� a� local� oscillator� of� a� much� higher� frequency� range�
�from� 600MHz� to� 1.2GHz� into� the� carrier� input.� Using� the�
�example� of� a� 850MHz� carrier� input� and� a� 70MHz� IF,� the� output�
�spectrum� will� contain� a� upper� side� band� of� 920MHz,� a� lower�
�side� band� of� 780MHz� and� some� of� the� carrier� (850MHz)� and� IF�
�(70MHz)� feedthrough.� A� Band� pass� filter� at� the� output� can�
�attenuate� the� undesirable� signals� and� the� 920MHz� signal� can�
�be� routed� to� a� transmitter� RF� power� amplifier.�
�Down� conversion,� as� the� name� implies,� is� the� process� used�
�to� translate� a� higher� frequency� signal� to� a� lower� frequency�
�range� conserving� the� modulation� information� contained� in�
�the� higher� frequency� signal.� One� very� common� typical� down�
�conversion� use� for� example,� is� for� superheterodyne� radio�
�receivers� where� a� translated� lower� frequency� often� referred�
�as� intermediate� frequency� (IF)� is� used� for� detection� or�
�demodulation� of� the� baseband� signal.� Other� application� uses�
�include� down� conversion� for� special� filtering� using� frequency�
�translation� methods.�
�An� oscillator� referred� as� the� local� oscillator� (LO)� drives� the�
�upper� quad� transistors� of� the� cell� with� a� frequency� called�
�ω� C� .� The� lower� pair� is� driven� by� the� RF� signal� of� frequency�
�ω� M� to� be� translated� to� a� lower� frequency� IF.� The� spectrum� of�
�the� IF� output� will� contain� the� sum� and� difference� of� the�
�frequencies� ω� C� and� ω� M� .� Notice� that� the� difference� can�
�become� negative� when� the� frequency� of� the� local� oscillator� is�
�lower� than� the� incoming� frequency� and� the� signal� is� folded�
�back� as� in� Figure� 2.�
�NOTE:� The� acronyms� R� F,� IF� and� LO� are� often� interchanged� in� the�
�industry� depending� on� the� application� of� the� cell� as� mixers� or�
�modulators.� The� output� of� the� cell� also� contains� multiples� of� the�
�frequency� of� the� signal� being� fed� to� the� upper� quad� pair� of� transistors�
�because� of� the� switching� action� equivalent� to� a� square� wave�
�multiplication.� In� practice,� however,� not� only� the� odd� multiples� in� the�
�case� of� a� symmetrical� square� wave� but� some� of� the� even� multiples�
�will� also� appear� at� the� output� spectrum� due� to� the� nature� of� the� actual�
�switching� waveform� and� high� frequency� performance.� By-products� of�
�the� form� M*� ω� C� +� N*� ω� M� with� M� and� N� being� positive� or� negative�
�integers� are� also� expected� to� be� present� at� the� output� and� their� levels�
�are� carefully� examined� and� minimized� by� the� design.� This� distortion�
�is� considered� one� of� the� figures� of� merit� for� a� mixer� application.�
�6�
�The� process� of� frequency� doubling� is� also� understood� by�
�having� the� same� signal� being� fed� to� both� modulating� and�
�carrier� ports.� The� output� frequency� will� be� the� sum� of� ω� C�
�and� ω� M� which� is� equivalent� to� the� product� of� the� input�
�frequency� by� 2� and� a� zero� Hz� or� DC� frequency� equivalent� to�
�the� difference� of� ω� C� and� ω� M� .� Figure� 2� also� shows� one�
�technique� in� use� today� where� a� process� of� down� conversion�
�named� zero� IF� is� made� by� using� a� local� oscillator� with� a� very�
�pure� signal� frequency� equal� to� the� incoming� RF� frequency�
�signal� that� contains� a� baseband� (audio� or� digital� signal)�
�modulation.� Although� complex,� the� extraction� or� detection� of�
�the� signal� is� straightforward.�
�Another� useful� application� of� the� HFA3101� is� its� use� as� a� high�
�frequency� phase� detector� where� the� two� signals� are� fed� to� the�
�carrier� and� modulation� ports� and� the� DC� information� is�
�extracted� from� its� output.� In� this� case,� both� ports� are� utilized� in� a�
�switching� mode� or� overdrive,� such� that� the� process� of�
�multiplication� takes� place� in� a� quasi� digital� form� (2� square�
�waves).� One� application� of� a� phase� detector� is� frequency� or�
�phase� demodulation� where� the� FM� signal� is� split� before� the�
�modulating� and� carrier� ports.� The� lower� input� port� is� always� 90�
�degrees� apart� from� the� carrier� input� signal� through� a� high� Q�
�tuned� phase� shift� network.� The� network,� being� tuned� for� a�
�precise� 90� degrees� shift� at� a� nominal� frequency,� will� set� the� two�
�signals� 90� degrees� apart� and� a� quiescent� output� DC� level� will�
�be� present� at� the� output.� When� the� input� signal� is� frequency�
�modulated,� the� phase� shift� of� the� signal� coming� from� the�
�network� will� deviate� from� 90� degrees� proportional� to� the�
�frequency� deviation� of� the� FM� signal� and� a� DC� variation� at� the�
�output� will� take� place,� resembling� the� demodulated� FM� signal.�
�The� HFA3101� could� also� be� used� for� quadrature� detection,�
�(I/Q� demodulation),� AGC� control� with� limited� range,� low� level�
�multiplication� to� name� a� few� other� applications.�
�Biasing�
�Various� biasing� schemes� can� be� employed� for� use� with� the�
�HFA3101.� Figure� 3� shows� the� most� common� schemes.� The�
�biasing� method� is� a� choice� of� the� designer� when� cost,�
�thermal� dependence,� voltage� overheads� and� DC� balancing�
�properties� are� taken� into� consideration.�
�Figure� 3A� shows� the� simplest� form� of� biasing� the� HFA3101.�
�The� current� source� required� for� the� lower� pair� is� set� by� the�
�voltage� across� the� resistor� R� BIAS� less� a� V� BE� drop� of� the�
�lower� transistor.� To� increase� the� overhead,� collector� resistors�
�are� substituted� by� an� RF� choke� as� the� upper� pair� functions�
�as� a� current� source� for� AC� signals.� The� bases� of� the� upper�
�and� lower� transistors� are� biased� by� R� B1� and� R� B2�
�respectively.� The� voltage� drop� across� the� resistor� R� 2� must�
�be� higher� than� a� V� BE� with� an� increase� sufficient� to� assure�
�that� the� collector� to� base� junctions� of� the� lower� pair� are�
�always� reverse� biased.� Notice� that� this� same� voltage� also�
�sets� the� V� CE� of� operation� of� the� lower� pair� which� is� important�
�for� the� optimization� of� gain.� Resistors� R� EE� are� nominally�
�zero� for� applications� where� the� input� signals� are� well� below�
�25mV� peak.� Resistors� R� EE� are� used� to� increase� the� linearity�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| HFA3101BZ | 制造商:Intersil Corporation 功能描述:TRANSISTOR ARRAY |
| HFA3101BZ | 制造商:Intersil Corporation 功能描述:IC TRANSISTOR ARRAY GILBERT 制造商:Intersil Corporation 功能描述:IC TRANSISTOR ARRAY, GILBERT |
| HFA3101BZ96 | 功能描述:射频双极小信号晶体管 TXARRAY NPN GILBERT CELL 8W MILEL RoHS:否 制造商:NXP Semiconductors 配置:Single 晶体管极性:NPN 最大工作频率:7000 MHz 集电极—发射极最大电压 VCEO:15 V 发射极 - 基极电压 VEBO:2 V 集电极连续电流:0.15 A 功率耗散:1000 mW 直流集电极/Base Gain hfe Min: 最大工作温度:+ 150 C 封装 / 箱体:SOT-223 封装:Reel |
| HFA3102 | 制造商:INTERSIL 制造商全称:Intersil Corporation 功能描述:Dual Long-Tailed Pair Transistor Array |
| HFA3102_05 | 制造商:INTERSIL 制造商全称:Intersil Corporation 功能描述:Dual Long-Tailed Pair Transistor Array |
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