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| 型号: | EVAL-869-ES |
| 厂商: | Linx Technologies Inc |
| 文件页数: | 6/11页 |
| 文件大小: | 0K |
| 描述: | KIT EVAL BASIC 869MHZ ES SERIES |
| 标准包装: | 1 |
| 系列: | ES |
| 类型: | 发射器,接收器 |
| 频率: | 869MHz |
| 适用于相关产品: | Linx OEM 模块 |
| 已供物品: | 2 个板,2 个发射器,2 个接收器,2 个连接器,2 根天线,电池,文档 |
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�BOARD� LAYOUT� GUIDELINES�
�If� you� are� at� all� familiar� with� RF� devices,� you� may� be� concerned� about�
�specialized� board� layout� requirements.� Fortunately,� because� of� the� care� taken� by�
�Linx� in� designing� the� modules,� integrating� them� is� very� straightforward.� Despite�
�this� ease� of� application,� it� is� still� necessary� to� maintain� respect� for� the� RF� stage�
�and� exercise� appropriate� care� in� layout� and� application� in� order� to� maximize�
�performance� and� ensure� reliable� operation.� The� antenna� can� also� be� influenced�
�by� layout� choices.� Please� review� this� data� guide� in� its� entirety� prior� to� beginning�
�your� design.� By� adhering� to� good� layout� principles� and� observing� some� basic�
�design� rules,� you� will� be� on� the� path� to� RF� success.�
�MICROSTRIP� DETAILS�
�A� transmission� line� is� a� medium� whereby� RF� energy� is� transferred� from� one�
�place� to� another� with� minimal� loss.� This� is� a� critical� factor,� especially� in� high-�
�frequency� products� like� Linx� RF� modules,� because� the� trace� leading� to� the�
�module’s� antenna� can� effectively� contribute� to� the� length� of� the� antenna,�
�changing� its� resonant� bandwidth.� In� order� to� minimize� loss� and� detuning,� some�
�form� of� transmission� line� between� the� antenna� and� the� module� should� be� used,�
�unless� the� antenna� can� be� placed� very� close� (<1/8in.)� to� the� module.� One�
�common� form� of� transmission� line� is� a� coax� cable,� another� is� the� microstrip.� This�
�term� refers� to� a� PCB� trace� running� over� a� ground� plane� that� is� designed� to� serve�
�The� adjacent� figure� shows� the� suggested�
�PCB� footprint� for� the� module.� The� actual� pad�
�dimensions� are� shown� in� the� Pad� Layout�
�section� of� this� manual.� A� ground� plane� (as�
�large� as� possible)� should� be� placed� on� a�
�lower� layer� of� your� PC� board� opposite� the�
�module.� This� ground� plane� can� also� be� critical�
�to� the� performance� of� your� antenna,� which� will�
�be� discussed� later.� There� should� not� be� any�
�ground� or� traces� under� the� module� on� the�
�same� layer� as� the� module,� just� bare� PCB.�
�SHORT� MICROSTRIP� TRACE�
�GROUND� PLANE�
�ON� LOWER� LAYER�
�Figure� 11:� Suggested� PCB� Layout�
�as� a� transmission� line� between� the� module� and� the� antenna.� The� width� is� based�
�on� the� desired� characteristic� impedance� of� the� line,� the� thickness� of� the� PCB,�
�and� the� dielectric� constant� of� the� board� material.� For� standard� 0.062in� thick� FR-�
�4� board� material,� the� trace� width� would� be� 111� mils.� The� correct� trace� width� can�
�be� calculated� for� other� widths� and� materials� using� the� information� below.� Handy�
�software� for� calculating� microstrip� lines� is� also� available� on� the� Linx� website,�
�www.linxtechnologies.com.�
�Trace�
�During� prototyping,� the� module� should� be� soldered� to� a� properly� laid-out� circuit�
�board.� The� use� of� prototyping� or� “perf”� boards� will� result� in� horrible� performance�
�and� is� strongly� discouraged.�
�No� conductive� items� should� be� placed� within� 0.15in� of� the� module’s� top� or� sides.�
�Do� not� route� PCB� traces� directly� under� the� module.� The� underside� of� the� module�
�has� numerous� signal-bearing� traces� and� vias� that� could� short� or� couple� to� traces�
�on� the� product’s� circuit� board.�
�The� module’s� ground� lines� should� each� have� their� own� via� to� the� ground� plane�
�and� be� as� short� as� possible.�
�AM� /� OOK� receivers� are� particularly� subject� to� noise.� The� module� should,� as�
�much� as� reasonably� possible,� be� isolated� from� other� components� on� your� PCB,�
�especially� high-frequency� circuitry� such� as� crystal� oscillators,� switching� power�
�supplies,� and� high-speed� bus� lines.� Make� sure� internal� wiring� is� routed� away�
�from� the� module� and� antenna,� and� is� secured� to� prevent� displacement.�
�The� power� supply� filter� should� be� placed� close� to� the� module’s� V� CC� line.�
�In� some� instances,� a� designer� may� wish� to� encapsulate� or� “pot”� the� product.�
�Many� Linx� customers� have� done� this� successfully;� however,� there� are� a� wide�
�variety� of� potting� compounds� with� varying� dielectric� properties.� Since� such�
�compounds� can� considerably� impact� RF� performance,� it� is� the� responsibility� of�
�the� designer� to� carefully� evaluate� and� qualify� the� impact� and� suitability� of� such�
�Figure� 12:� Microstrip� Formulas�
�Board�
�Ground� plane�
�materials.�
�The� trace� from� the� module� to� the� antenna� should� be� kept� as� short� as� possible.�
�Dielectric� Constant� Width/Height� (W/d)�
�Effective� Dielectric�
�Constant�
�Characteristic�
�Impedance�
�A� simple� trace� is� suitable� for� runs� up� to� 1/8-inch� for� antennas� with� wide�
�bandwidth� characteristics.� For� longer� runs� or� to� avoid� detuning� narrow� bandwidth�
�antennas,� such� as� a� helical,� use� a� 50-ohm� coax� or� 50-ohm� microstrip�
�transmission� line� as� described� in� the� following� section.�
�4.80�
�4.00�
�2.55�
�1.8�
�2.0�
�3.0�
�3.59�
�3.07�
�2.12�
�50.0�
�51.0�
�48.0�
�Page� 10�
�Page� 11�
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