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�2.4GHz� to� 2.5GHz�
�Linear� Power� Amplifier�
�For� a� DAC� capable� of� both� sourcing� and� sinking� cur-�
�rents,� the� full� voltage� range� of� the� DAC� (typically� from� 0�
�to� +3V)� can� be� used.� By� substituting� the� desired� values�
�of� V� MAX� and� I� MAX� into� equations� 1� and� 2,� R1� and� R2�
�can� be� easily� calculated.�
�For� a� DAC� capable� of� sourcing� current� only,� use� equa-�
�tion� 4� to� determine� the� value� of� resistor� R2� for� the�
�desired� maximum� current.� Use� equation� 1� to� determine�
�the� value� of� resistor� R1� for� the� desired� minimum� current.�
�For� a� DAC� capable� of� sinking� current� only,� set� resistors�
�R1� and� R2� to� 0� and� connect� the� DAC� directly� to� the�
�BIAS� pin.� Use� equation� 5� to� determine� the� DAC� current�
�required� for� a� given� I� CC� .�
�Shutdown� Mode�
�Apply� logic� low� to� SHDN� (pin� C2)� to� place� the�
�MAX2242� into� shutdown� mode.� In� this� mode,� all� gain�
�stages� are� disabled� and� supply� current� typically� drops�
�to� 0.5μA.� Note� that� the� shutdown� current� is� lowest� when�
�V� SHDN� =� 0.�
�Power� Detector�
�The� power� detector� generates� a� voltage� proportional� to�
�the� output� power� by� monitoring� the� output� power� using�
�an� internal� coupler.� It� is� fully� temperature� compensated�
�and� allows� the� user� to� set� the� bandwidth� with� an� exter-�
�nal� capacitor.� For� maximum� bandwidth,� connect� a�
�47k� ?� resistor� from� PD_OUT� to� GND� and� do� not� use� any�
�external� capacitor.�
�Applications� Information�
�Interstage� Matching� and� Bypassing�
�V� CC1� and� V� CC2� provide� bias� to� the� first� and� second�
�stage� amplifiers,� and� are� also� part� of� the� interstage�
�matching� networks� required� to� optimize� performance�
�between� the� three� amplifier� stages.� See� the� Typical�
�Application� Circuit� for� the� lumped� and� discrete� compo-�
�nent� values� used� on� the� MAX2242� EV� kit� for� optimum�
�interstage� matching� and� RF� bypassing.� In� addition� to�
�RF� bypass� capacitors� on� each� bias� line,� a� global�
�bypass� capacitor� of� 22μF� is� necessary� to� filter� any�
�noise� on� the� supply� line.� Route� separate� V� CC� bias�
�paths� from� the� global� bypass� capacitor� (star� topology)�
�to� avoid� coupling� between� PA� stages.� Use� the�
�MAX2242� EV� kit� PC� board� layout� as� a� guide.�
�External� Matching�
�The� RFIN� port� requires� a� matching� network.� The� RFIN�
�port� impedance� is� 16� –� j30� at� 2.45GHz.� See� the� Typical�
�Application� Circuit� for� recommended� component� values.�
�The� RFOUT� port� is� an� open-collector� output� that� must�
�be� pulled� to� V� CC� through� a� 10nH� RF� choke� for� proper�
�biasing.� A� shunt� 33pF� capacitor� to� ground� is� required�
�at� the� supply� side� of� the� inductor.� In� addition,� a� match-�
�ing� network� is� required� for� optimum� gain,� efficiency,�
�ACPR,� and� output� power.� The� load� impedance� seen� at�
�the� RFOUT� port� of� the� MAX2242� on� the� EV� kit� is�
�approximately� 8� +� j5� ?� .� This� should� serve� as� a� good�
�starting� point� for� your� layout.� However,� optimum� perfor-�
�mance� is� layout� dependent� and� some� component� opti-�
�mization� may� be� required.� See� the� Typical� Application�
�Circuit� for� the� lumped� and� discrete� component� values�
�used� on� the� MAX2242� EV� kit� to� achieve� this� impedance.�
�Ground� Vias�
�Placement� and� type� of� ground� vias� are� important� to�
�achieve� optimum� gain� and� output� power� and� ACPR�
�performance.� Each� ground� pin� requires� its� own� through-�
�hole� via� (via� diameter� =� 10mils)� placed� as� near� to� the�
�device� pin� as� possible� to� reduce� ground� inductance�
�and� feedback� between� stages.� Use� the� MAX2242� EV�
�kit� PC� board� layout� as� a� guide.�
�Layout� and� Thermal� Management� Issues�
�The� MAX2242� EV� kit� serves� as� a� layout� guide.� Use� con-�
�trolled-impedance� lines� on� all� high-frequency� inputs�
�and� outputs.� The� GND� pins� also� serve� as� heat� sinks.�
�Connect� all� GND� pins� directly� to� the� topside� RF� ground.�
�On� boards� where� the� ground� plane� is� not� on� the� com-�
�ponent� side,� connect� all� GND� pins� to� the� ground� plane�
�with� plated� multiple� throughholes� close� to� the� package.�
�PC� board� traces� connecting� the� GND� pins� also� serve�
�as� heat� sinks.� Make� sure� that� the� traces� are� sufficiently�
�wide.�
�UCSP� Reliability�
�UCSP� represents� a� unique� packaging� form� factor� that�
�may� not� perform� equally� to� a� packaged� product�
�through� traditional� mechanical� reliability� tests.� UCSP�
�reliability� is� integrally� linked� to� the� user� ’� s� assembly�
�methods,� circuit-board� material,� and� usage� environ-�
�ment.� The� user� should� closely� review� these� areas� when�
�considering� use� of� a� UCSP.� Performance� through� the�
�operating-life� test� and� moisture� resistance� remains�
�uncompromised� as� it� is� primarily� determined� by� the�
�wafer-fabrication� process.� Mechanical� stress� perfor-�
�mance� is� a� greater� consideration� for� a� UCSP.� UCSPs�
�are� attached� through� direct� solder� contact� to� the� user� ’� s�
�PC� board,� foregoing� the� inherent� stress� relief� of� a� pack-�
�aged-product� lead� frame.� Solder� joint� contact� integrity�
�must� be� considered.� Testing� done� to� characterize� the�
�_______________________________________________________________________________________�
�7�
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