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�MAX3540� Evaluation� Kit�
�Connections� and� Setup�
�This� section� provides� a� step-by-step� guide� to� testing�
�the� basic� functionality� of� the� EV� kit� in� UHF� mode.�
�Caution:� Do� not� turn� on� DC� power� or� RF� signal� gen-�
�erators� until� all� connections� are� completed:�
�1)� Verify� that� the� JP1� and� JP6� shunts� are� removed,� the�
�JP2� shunt� is� installed,� and� JP11� and� JP12� have�
�shunts� across� pins� 1-2.�
�2)� With� its� output� disabled,� set� the� DC� power� supply� to�
�+3.3V.� Connect� the� power� supply� to� the� +3.3V�
�(through� an� ammeter� if� desired)� and� GND1� termi-�
�nals� on� the� EV� kit.� If� available,� set� the� current� limit� to�
�500mA.�
�3)� With� its� output� disabled,� set� the� second� DC� power�
�supply� to� +5V.� Connect� the� power� supply� to� the�
�+5V� (through� an� ammeter� if� desired)� and� GND1� ter-�
�minals� on� the� EV� kit.� If� available,� set� the� current� limit�
�to� 100mA.�
�4)� With� its� output� disabled,� set� both� outputs� of� the� dual-�
�output� DC� power-supply� voltages� to� +3V.� Connect�
�one� of� the� outputs� to� the� TP1� terminal� and� connect�
�the� other� output� to� the� IF_AGC� terminal.�
�5)� With� its� output� disabled,� set� the� RF� signal� generator�
�to� a� 55.25MHz� frequency� and� a� -80dBm� power�
�level.� Connect� the� output� of� the� RF� signal� generator�
�to� the� SMA� connector� labeled� RFIN� on� the� evalua-�
�tion� board.�
�6)� Connect� a� 25-pin� parallel� cable� between� the� PC’s�
�parallel� port� and� the� MAX3540� evaluation� board.�
�7)� Turn� on� the� +3.3V� V� CC� power� supply,� +5V� V� CC�
�power� supply,� and� the� +3V� dual-output� gain-control�
�power� supply.� The� supply� current� from� the� +3.3V�
�V� CC� supply� should� read� approximately� 200mA.� The�
�supply� current� from� the� +5V� V� CC� supply� should�
�read� approximately� 20mA.� Be� sure� to� adjust� the�
�power� supply� to� account� for� any� voltage� drop�
�across� the� ammeter.�
�8)� Install� and� run� the� MAX3540� control� software.�
�Software� is� available� for� download� on� the� Maxim�
�website� at� www.maxim-ic.com/evkitsoftware.�
�9)� Load� the� default� register� settings� from� the� control�
�software� by� clicking� Edit:� Load� Defaults.�
�10)� Connect� the� SMA� connector� labeled� IF_OUT� on� the�
�evaluation� board� to� a� spectrum� analyzer� or� to� an�
�oscilloscope.�
�11)� Enable� the� RF� signal� generator’s� output.�
�12)� Set� the� center� frequency� of� the� RF� spectrum� analyz-�
�er� to� the� IF� frequency� set� on� the� control� software.�
�Check� the� output.�
�Gain� Adjustment� Calculations�
�Add� an� additional� 6dB� to� the� voltage� gain� to� account�
�for� the� 2:1� transformer� on� the� output.� Add� another�
�3.96dB� to� the� voltage� gain� to� account� for� the� minimum�
�loss� pad� (R11� and� R10)� on� the� input.� When� measuring�
�noise� figure,� account� for� 5.7dB� power� loss� of� the� mini-�
�mum� loss� pad.�
�An� anti-aliasing� filter� is� provided� on� the� IF� output� (C21,�
�C25–C29,� C31,� C35,� L9,� L11).� The� passband� of� this� fil-�
�ter� is� 6MHz� centered� at� the� IF� frequency� of� 44MHz,� and�
�is� designed� for� a� 200� Ω� termination.� Anti-aliasing� filter�
�requirements� vary� depending� on� application;� the� filter�
�architecture� and� component� values� are� provided� as�
�general� guidelines� only.�
�Layout� Considerations�
�The� MAX3540� EV� kit� serves� as� a� guide� for� PCB� layout.�
�Keep� RF� signal� lines� as� short� as� possible� to� minimize�
�losses� and� radiation.� Use� controlled� impedance� on� all�
�high-frequency� traces.� The� exposed� pad� must� be� sol-�
�dered� evenly� to� the� board’s� ground� plane� for� proper�
�operation.� Use� abundant� vias� beneath� the� exposed�
�pad� for� maximum� heat� dissipation.� Use� abundant�
�ground� vias� between� RF� traces� to� minimize� undesired�
�coupling.�
�To� minimize� coupling� between� different� sections� of� the�
�IC,� the� ideal� power-supply� layout� is� a� star� configuration,�
�which� has� a� large� decoupling� capacitor� at� the� central�
�V� CC� node.� The� V� CC� traces� branch� out� from� this� node,�
�with� each� trace� going� to� separate� V� CC� pins� of� the�
�MAX3540.� Each� V� CC� pin� must� have� a� bypass� capacitor�
�with� a� low� impedance� to� ground� at� the� frequency� of�
�interest.� Do� not� share� ground� vias� among� multiple� con-�
�nections� to� the� PCB� ground� plane.�
�4�
�_______________________________________________________________________________________�
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