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| 型号: | SI4461-868-DK |
| 厂商: | Silicon Laboratories Inc |
| 文件页数: | 26/56页 |
| 文件大小: | 0K |
| 描述: | KIT DEV WIRELESS SI4461 868MHZ |
| 标准包装: | 1 |
| 系列: | EZRadioPRO® |
| 类型: | 收发器,ISM |
| 频率: | 868MHz |
| 适用于相关产品: | Si4461 |
| 已供物品: | 8 个板,天线,电池,线缆,电源,软件 |
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�Si4464/63/61/60�
�4.2.� Modulation� Types�
�The� Si446x� supports� five� different� modulation� options:� Gaussian� frequency� shift� keying� (GFSK),� frequency-shift�
�keying� (FSK),� four-level� GFSK� (4GFSK),� four-level� FSK� (4FSK),� and� on-off� keying� (OOK).� Minimum� shift� keying�
�(MSK)� can� also� be� created� by� using� GFSK� settings.� GFSK� is� the� recommended� modulation� type� as� it� provides� the�
�best� performance� and� cleanest� modulation� spectrum.� The� modulation� type� is� set� by� the� “MOD_TYPE[2:0]”�
�registers� in� the� “MODEM_MOD_TYPE”� API� property.� A� continuous-wave� (CW)� carrier� may� also� be� selected� for� RF�
�evaluation� purposes.� The� modulation� source� may� also� be� selected� to� be� a� pseudo-random� source� for� evaluation�
�purposes.�
�4.3.� Hardware� Configuration� Options�
�There� are� different� receive� demodulator� options� to� optimize� the� performance� and� mutually-exclusive� options� for�
�how� the� RX/TX� data� is� transferred� from� the� host� MCU� to� the� RF� device.�
�4.3.1.� Receive� Demodulator� Options�
�There� are� multiple� demodulators� integrated� into� the� device� to� optimize� the� performance� for� different� applications,�
�modulation� formats,� and� packet� structures.� The� calculator� built� into� WDS� will� choose� the� optimal� demodulator�
�based� on� the� input� criteria.�
�4.3.1.1.� Synchronous� Demodulator�
�The� synchronous� demodulator's� internal� frequency� error� estimator� acquires� the� frequency� error� based� on� a�
�101010� preamble� structure.� The� bit� clock� recovery� circuit� locks� to� the� incoming� data� stream� within� four� transactions�
�of� a� “10”� or� “01”� bit� stream.� The� synchronous� demodulator� gives� optimal� performance� for� 2-� or� 4-level� FSK� or�
�GFSK� modulation� that� has� a� modulation� index� less� than� 2.�
�4.3.1.2.� Asynchronous� Demodulator�
�The� asynchronous� demodulator� should� be� used� OOK� modulation� and� for� FSK/GFSK/4GFSK� under� one� or� more� of�
�the� following� conditions:�
�??� Modulation�
�index� >� 2�
�??� Non-standard� preamble� (not� 1010101...� pattern)�
�When� the� modulation� index� exceeds� 2,� the� asynchronous� demodulator� has� better� sensitivity� compared� to� the�
�synchronous� demodulator.� An� internal� deglitch� circuit� provides� a� glitch-free� data� output� and� a� data� clock� signal� to�
�simplify� the� interface� to� the� host.� There� is� no� requirement� to� perform� deglitching� in� the� host� MCU.� The�
�asynchronous� demodulator� will� typically� be� utilized� for� legacy� systems� and� will� have� many� performance� benefits�
�over� devices� used� in� legacy� designs.� Unlike� the� Si4432/31� solution� for� non-standard� packet� structures,� there� is� no�
�requirement� to� perform� deglitching� on� the� data� in� the� host� MCU.� Glitch-free� data� is� output� from� Si446x� devices,� and�
�a� sample� clock� for� the� asynchronous� data� can� also� be� supplied� to� the� host� MCU;� so,� oversampling� or� bit� clock�
�recovery� is� not� required� by� the� host� MCU.� There� are� multiple� detector� options� in� the� asynchronous� demodulator�
�block,� which� will� be� selected� based� upon� the� options� entered� into� the� WDS� calculator.� The� asynchronous�
�demodulator's� internal� frequency� error� estimator� is� able� to� acquire� the� frequency� error� based� on� any� preamble�
�structure.�
�4.3.2.� RX/TX� Data� Interface� With� MCU�
�There� are� two� different� options� for� transferring� the� data� from� the� RF� device� to� the� host� MCU.� FIFO� mode� uses� the�
�SPI� interface� to� transfer� the� data,� while� direct� mode� transfers� the� data� in� real� time� over� GPIO.�
�4.3.2.1.� FIFO� Mode�
�In� FIFO� mode,� the� transmit� and� receive� data� is� stored� in� integrated� FIFO� register� memory.� The� TX� FIFO� is�
�accessed� by� writing� Command� 66h� followed� directly� by� the� data/clk� that� the� host� wants� to� write� into� the� TX� FIFO.�
�The� RX� FIFO� is� accessed� by� writing� command� 77h� followed� by� the� number� of� clock� cycles� of� data� the� host� would�
�like� to� read� out� of� the� RX� FIFO.� The� RX� data� will� be� clocked� out� onto� the� SDO� pin.�
�In� TX� mode,� if� the� packet� handler� is� enabled,� the� data� bytes� stored� in� FIFO� memory� are� “packaged”� together� with�
�other� fields� and� bytes� of� information� to� construct� the� final� transmit� packet� structure.� These� other� potential� fields�
�include� the� Preamble,� Sync� word,� Header,� CRC� checksum,� etc.� The� configuration� of� the� packet� structure� in� TX�
�mode� is� determined� by� the� Automatic� Packet� Handler� (if� enabled),� in� conjunction� with� a� variety� of� Packet� Handler�
�properties.� If� the� Automatic� Packet� Handler� is� disabled,� the� entire� desired� packet� structure� should� be� loaded� into�
�FIFO� memory;� no� other� fields� (such� as� Preamble� or� Sync� word)� will� be� automatically� added� to� the� bytes� stored� in�
�26�
�Rev� 1.2�
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| Si4461-B0B-FM | 功能描述:射频收发器 TRX ROM 61 EZRadioPRO RoHS:否 制造商:Atmel 频率范围:2322 MHz to 2527 MHz 最大数据速率:2000 Kbps 调制格式:OQPSK 输出功率:4 dBm 类型: 工作电源电压:1.8 V to 3.6 V 最大工作温度:+ 85 C 接口类型:SPI 封装 / 箱体:QFN-32 封装:Tray |
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