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| 型号: | MRF89XAT-I/MQ |
| 厂商: | Microchip Technology |
| 文件页数: | 91/140页 |
| 文件大小: | 0K |
| 描述: | RF ISM BAND TXRX 32 QFN |
| 标准包装: | 1 |
| 频率: | 863MHz ~ 870MHz,902MHz ~ 928MHz,950MHz ~ 960MHz |
| 数据传输率 - 最大: | 200kbps |
| 调制或协议: | FSK,OOK |
| 应用: | ISM |
| 功率 - 输出: | 12.5dBm |
| 灵敏度: | -113dBm |
| 电源电压: | 2.1 V ~ 3.6 V |
| 电流 - 接收: | 3mA |
| 电流 - 传输: | 25mA |
| 数据接口: | PCB,表面贴装 |
| 存储容量: | * |
| 天线连接器: | PCB,表面贴装 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 32-WFQFN 裸露焊盘 |
| 包装: | 标准包装 |
| 其它名称: | MRF89XAT-I/MQDKR |
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�
�MRF89XA�
�3.13�
�Battery� Power� Management�
�Configuration� Values�
�Note:�
�Many� host� microcontrollers� cannot� be�
�Battery� life� can� be� greatly� extended� in� MRF89XA� appli-�
�cations� where� transmissions� from� field� nodes� are� infre-�
�quent,� or� network� communications� can� be�
�concentrated� in� periodic� time� slots.� For� example,� field�
�nodes� in� many� wireless� alarm� systems� report� opera-�
�tional� status� a� few� times� a� day,� and� can� otherwise� sleep�
�unless� an� alarm� condition� occurs.� Sensor� networks� that�
�monitor� parameters� that� change� relatively� slowly,� such�
�as� air� and� soil� temperature� in� agricultural� settings,�
�switching� lights� ON/OFF,� only� need� to� transmit�
�updates� a� few� times� per� an� hour.�
�At� room� temperature,� the� MRF89XA� draws� a� maximum�
�of� 1� μ� A� in� Sleep� mode,� with� a� typical� value� of� 100 nA.�
�To� achieve� minimum� Sleep� mode� current,� the� CSCON�
�pin� (pin� 14),� SDI� pin� (pin� 17)� and� SCK� pin� (pin� 18)� must�
�be� held� logic� low,� while� the� CSDAT� pin� (pin� 15)� and�
�SDO� pin� (pin� 16)� must� be� held� logic� high.�
�The� MRF89XA� can� go� from� Sleep� mode� through�
�Stand-by� mode� and� Synthesizer� mode� to� Transmit� (or�
�Receive)� mode� in� less� than� 6� ms.� For� configuring� and�
�driving� the� device� different� operating� modes� refer� to�
�Table� 2-3� .� At� a� data� rate� of� 33.33� kbps,� a� 32-byte�
�packet� with� a� 4-byte� preamble� and� a� 4-byte� start� pat-�
�tern� takes� about� 10� ms� to� transmit.� Assume� that� the�
�MRF89XA� then� switches� to� Receive� mode� for� one� sec-�
�ond� to� listen� for� a� response� and� returns� to� Sleep� mode.�
�On� the� basis� of� reporting� every� six� hours,� the� ON� to�
�Sleep� duty� cycle� is� about� 1:21,259,� greatly� extending�
�battery� life� over� continuous� transmit-receive� or� even�
�stand-by� operation.�
�The� required� timing� accuracy� for� the� microcontrollers� in�
�a� sleep-cycled� application� depends� on� several� factors:�
�?� The� required� “time-stamp”� accuracy� of� data�
�reported� by� sleeping� field� nodes.� R-C� Sleep� mode�
�timers� built� into� many� microcontrollers� have� a� tol-�
�erance� of� ±20%� or� more.� For� applications� that�
�require� more� accurate� time-stamping,� many�
�microcontrollers� can� run� on� a� watch� crystal� during�
�Sleep� mode� and� achieve� time-stamp� accuracies�
�better� than� one� second� per� 24� hours.�
�?� If� the� base� station� and� any� routing� nodes� present�
�in� a� network� must� sleep� cycle� in� addition� to� the�
�field� nodes.� Watch� crystal� control� will� usually� be�
�needed� to� keep� all� nodes� accurately� synchronized�
�to� the� active� time� slots.�
�?� If� the� base� station� and� any� routing� nodes� present�
�in� a� network� can� operate� continuously� (AC� pow-�
�ered,� solar� charged� batteries),� and� a� loose� time�
�stamp� accuracy� is� OK,� the� microcontrollers� in�
�sleeping� field� nodes� can� usually� operate� from�
�internal� low-accuracy� R-C� timers�
�operated� from� the� MRF89XA� buffered�
�clock� output� if� sleep� cycling� is� planned.� In�
�Sleep� mode,� the� MRF89XA� buffered� clock�
�output� is� disabled,� which� will� disable� the�
�microcontroller� unless� it� is� capable� of�
�automatically� switching� to� an� internal�
�clock� source� when� external� clocking� is�
�lost.�
�Therefore,� as� previously� mentioned,� Sleep� mode� is� the�
�lowest� power� consumption� mode� in� which� the� clock�
�and� all� functional� blocks� of� the� device� are� disabled.� In�
�case� of� an� interrupt,� the� device� wakes� up,� switches� to�
�Active� mode� and� an� interrupt� signal� generated� on� the�
�IRQ� pin� indicates� the� change� in� state� to� the� host� micro-�
�controller.� The� source� of� the� interrupt� can� be�
�determined� by� reading� the� status� word� of� the� device.�
�To� reduce� current� consumption,� the� MRF89XA�
�should� be� placed� in� the� low-power� consuming� Sleep�
�mode.� In� Sleep� mode,� the� 12.8� MHz� main� oscillator�
�is� turned� OFF,� disabling� the� RF� and� baseband� cir-�
�cuitry.� Data� is� retained� in� the� control� and� FIFO� regis-�
�ters� and� the� transceiver� is� accessible� through� the�
�SPI� port.� The� MRF89XA� will� not� enter� Sleep� mode� if�
�any� interrupt� remains� active,� regardless� of� the� state�
�of� the� CLKOCNTRL� bit� (CLKOUTREG<7>).� This�
�way,� the� microcontroller� can� always� have� a� clock� sig-�
�nal� to� process� the� interrupt.� To� prevent� high-current�
�consumption,� which� results� in� shorter� battery� life,� it� is�
�highly� recommended� to� process� and� clear� interrupts�
�before� entering� Sleep� mode.� The� functions� which� are�
�not� necessary� should� be� turned� off� to� avoid�
�unwanted� interrupts.� To� minimize� current� consump-�
�tion,� the� MRF89XA� supports� different� power-saving�
�modes,� along� with� an� integrated� wake-up� timer.�
�When� switching� from� Sleep� mode� to� Stand-by� mode,�
�the� crystal� oscillator� will� be� active� for� no� more� than� 5�
�ms.� Switching� from� Stand-by� mode� to� Synthesizer�
�mode,� the� PLL� will� lock� in� less� than� 0.5� ms.� PLL� lock�
�can� be� monitored� on� the� PLOCK� pin� (pin� 23)� of� the�
�MRF89XA.� The� radio� can� then� be� switched� to� either�
�Transmit� or� Receive� mode.� When� switching� from� any�
�other� mode� back� to� Sleep� mode,� the� device� will� drop� to�
�its� Sleep� mode� current� in� less� than� 1� ms.�
�?� 2010–2011� Microchip� Technology� Inc.�
�Preliminary�
�DS70622C-page� 91�
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