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| 型号: | 4463-TCE20C460-EK |
| 厂商: | Silicon Laboratories Inc |
| 文件页数: | 33/56页 |
| 文件大小: | 0K |
| 描述: | KIT EZRADIO TEST CARD SI4463 TX |
| 设计资源: | 4463-TCE20C460 BOM 4463-TCE20C460 PCB 4463-TCE20C460 SCH |
| 标准包装: | 1 |
| 系列: | EZRadioPRO® |
| 类型: | 收发器,ISM |
| 频率: | 460MHz |
| 适用于相关产品: | Si4463 |
| 已供物品: | 板 |
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�Si4464/63/61/60�
�5.3.1.1.� EZ� Frequency� Programming�
�In� applications� that� utilize� multiple� frequencies� or� channels,� it� may� not� be� desirable� to� write� four� API� registers� each�
�time� a� frequency� change� is� required.� EZ� frequency� programming� is� provided� so� that� only� a� single� register� write�
�(channel� number)� is� required� to� change� frequency.� A� base� frequency� is� first� set� by� first� programming� the� integer�
�and� fractional� components� of� the� synthesizer.� This� base� frequency� will� correspond� to� channel� 0.� Next,� a� channel�
�step� size� is� programmed� into� the� FREQ_CONTROL_CHANNEL_STEP_SIZE_1�
�and�
�FREQ_CONTROL_CHANNEL_STEP_SIZE_0� API� registers.� The� resulting� frequency� will� be:�
�RF� Frequency� =� Base� Frequency� +� Channel� ?� Stepsi� ze�
�The� second� argument� of� the� START_RX� or� START_TX� is� CHANNEL,� which� sets� the� channel� number� for� EZ�
�frequency� programming.� For� example,� if� the� channel� step� size� is� set� to� 1� MHz,� the� base� frequency� is� set� to�
�900� MHz� with� the� INTE� and� FRAC� API� registers,� and� a� CHANNEL� number� of� 5� is� programmed� during� the�
�START_TX� command,� the� resulting� frequency� will� be� 905� MHz.� If� no� CHANNEL� argument� is� written� as� part� of� the�
�START_RX/TX� command,� it� will� default� to� the� previous� value.� The� initial� value� of� CHANNEL� is� 0;� so,� if� no�
�CHANNEL� value� is� written,� it� will� result� in� the� programmed� base� frequency.�
�5.3.1.2.� Automatic� RX� Hopping� and� Hop� Table�
�The� transceiver� supports� an� automatic� hopping� feature� that� can� be� fully� configured� through� the� API.� This� is�
�intended� for� RX� hopping� where� the� device� has� to� hop� from� channel� to� channel� and� look� for� packets.� Once� the�
�device� is� put� into� the� RX� state,� it� automatically� starts� hopping� through� the� hop� table� if� the� feature� is� enabled.�
�The� hop� table� can� hold� up� to� 64� entries� and� is� maintained� in� firmware.� Each� entry� is� a� channel� number;� so,� the� hop�
�table� can� hold� up� to� 64� channels.� The� number� of� entries� in� the� table� is� set� by� RX� HOP� TABLE_SIZE� API.� The�
�specified� channels� correspond� to� the� EZ� frequency� programming� method� for� programming� the� frequency.� The�
�receiver� starts� at� the� base� channel� and� hops� in� sequence� from� the� top� of� the� hop� table� to� the� bottom.� The� table� will�
�wrap� around� to� the� base� channel� once� it� reaches� the� end� of� the� table.� An� entry� of� 0xFF� in� the� table� indicates� that�
�the� entry� should� be� skipped.� The� device� will� hop� to� the� next� non� 0xFF� entry.�
�There� are� three� conditions� that� can� be� used� to� determine� whether� to� continue� hopping� or� to� stay� on� a� particular�
�channel.� These� conditions� are:�
�??� RSSI�
�threshold�
�??� Preamble� timeout� (invalid� preamble� pattern)�
�??� Sync� word� timeout� (invalid� or� no� sync� word� detected� after� preamble)�
�These� conditions� can� be� used� individually,� or� they� can� be� enabled� all� together� by� configuring� the�
�RX_HOP_CONTROL� API.� However,� the� firmware� will� make� a� decision� on� whether� or� not� to� hop� based� on� the� first�
�condition� that� is� met.�
�The� RSSI� that� is� monitored� is� the� current� RSSI� value.� This� is� compared� to� the� threshold,� and,� if� it� is� above� the�
�threshold� value,� it� will� stay� on� the� channel.� If� the� RSSI� is� below� the� threshold,� it� will� continue� hopping.� There� is� no�
�averaging� of� RSSI� done� during� the� automatic� hopping� from� channel� to� channel.� Since� the� preamble� timeout� and�
�the� sync� word� timeout� are� features� that� require� packet� handling,� the� RSSI� threshold� is� the� only� condition� that� can�
�be� used� if� the� user� is� in� “direct”� or� “RAW”� mode� where� packet� handling� features� are� not� used.�
�Note� that� the� RSSI� threshold� is� not� an� absolute� RSSI� value;� instead,� it� is� a� relative� value� and� should� be� verified� on�
�the� bench� to� find� an� optimal� threshold� for� the� application.�
�The� turnaround� time� from� RX� to� RX� on� a� different� channel� using� this� method� is� 115� μs.� The� time� spent� in� receive�
�mode� will� be� determined� by� the� configuration� of� the� hop� conditions.� Manual� RX� hopping� will� have� the� fastest�
�turn-around� time� but� will� require� more� overhead� and� management� by� the� host� MCU.�
�The� following� are� example� steps� for� using� Auto� Hop:�
�1.� Set� the� base� frequency� (inte� +� frac)� and� channel� step� size.�
�2.� Define� the� number� of� entries� in� the� hop� table� (RX_HOP_TABLE_SIZE).�
�3.� Write� the� channels� to� the� hop� table� (RX_HOP_TABLE_ENTRY_n)�
�4.� Configure� the� hop� condition� and� enable� auto� hopping-� RSSI,� preamble,� or� sync� (RX_HOP_CONTROL).�
�5.� Set� preamble� and� sync� parameters� if� enabled.�
�Rev� 1.2�
�33�
�相关PDF资料 |
PDF描述 |
|---|---|
| 4463-TCE20B460-EK | KIT EZRADIO TEST CARD SI4463 TX |
| 4461-TSQ14D868-EK | KIT EZRADIO TEST CARD SI4461 TX |
| 4460-TCE10D868-EK | KIT EZRADIO TEST CARD SI4460 TX |
| 4460-TCE10D434-EK | KIT EZRADIO TEST CARD SI4460 TX |
| SI4844-DEMO | SI4844 EVAL AND DEMO BOARD |
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