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参数资料
| 型号: | MAX7060ATG+ |
| 厂商: | Maxim Integrated |
| 文件页数: | 18/31页 |
| 文件大小: | 0K |
| 描述: | IC TX ASK/FSK 280-450MHZ 24TQFN |
| 标准包装: | 75 |
| 频率: | 280MHz ~ 450MHz |
| 应用: | 通用 |
| 调制或协议: | ASK,OOK |
| 数据传输率 - 最大: | 140kbps |
| 功率 - 输出: | 15dBm |
| 电流 - 传输: | 34mA |
| 数据接口: | PCB,表面贴装 |
| 天线连接器: | PCB,表面贴装 |
| 电源电压: | 2.1 V ~ 3.6 V,4.5 V ~ 5.5 V |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 24-WFQFN 裸露焊盘 |
| 包装: | 管件 |
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�MAX7060�
�280MHz� to� 450MHz� Programmable�
�ASK/FSK� Transmitter�
�?� f� RF� ?� decimal� value� to� program� the�
�?� ?� 16� ?� � 4096� =�
�f� XTAL�
�?� ?�
�Applications� Information�
�SPI� Mode� Settings�
�ASK� Carrier� Frequency�
�When� the� MAX7060� is� in� ASK� mode,� only� the� carrier�
�frequency� needs� to� be� set.� To� do� this,� the� user� calcu-�
�lates� the� divide� ratio� based� on� the� carrier� frequency� and�
�crystal� frequency.� The� example� below� shows� how� to�
�determine� the� correct� value� to� be� loaded� into� the� carrier-�
�frequency� registers� (fce[15:0]).�
�Due� to� the� nature� of� the� transmit� PLL� frequency� divider,�
�a� fixed� offset� of� 16� must� be� subtracted� from� the� trans-�
�mit� PLL� divider� ratio� for� programming� the� MAX7060’s�
�transmit-frequency� registers.� To� determine� the� value� to�
�program� the� MAX7060’s� transmit-frequency� registers,�
�convert� the� decimal� value� of� the� following� equation� to� the�
�nearest� hexadecimal� value:�
�transmit-frequency� registers�
�Assume� the� ASK� transmit� frequency� =� 315MHz� and�
�f� XTAL� =� 16MHz.� In� this� example,� the� rounded� decimal�
�value� is� 15,104� or� 0x3B00.� The� upper� byte� (0x3B)� is�
�loaded� into� the� FCenter0� register� (fce[15:8])� and� the�
�lower� byte� (0x00)� is� loaded� into� the� FCenter1� register�
�(fce[7:0]).�
�FSK� Mark� and� Space� Frequencies�
�When� the� MAX7060� is� in� FSK� mode,� two� frequencies�
�need� to� be� set:� the� mark� (logical� 1)� frequency� and� the�
�space� (logical� 0)� frequency.� In� most� cases,� the� two� fre-�
�quencies� are� above� and� below� the� carrier� frequency� by�
�the� deviation� frequency.� Therefore,� the� user� needs� to�
�calculate� the� divide� ratio� for� both� frequencies� and� load�
�them� into� four� registers.� The� procedure� for� calculating�
�the� register� settings� is� the� same� as� it� is� for� calculating�
�the� carrier� frequency.� The� example� below� shows� how� to�
�determine� the� register� settings� for� the� mark� and� space�
�frequencies� when� the� frequency� deviation� is� ±50kHz�
�(100kHz� between� mark� and� space).�
�Assume� that,� for� an� FSK� transmitter� centered� at�
�433.92MHz,� the� mark� frequency� is� 433.97MHz,� the�
�space� frequency� is� 433.87MHz,� and� the� crystal� fre-�
�quency� is� 16MHz.� In� this� example,� the� rounded� decimal�
�value� for� the� mark� frequency� is� 45,560� or� 0xB1F8.� For� the�
�space� frequency,� the� rounded� decimal� value� is� 45,535�
�or� 0xB1DE.� The� mark� setting� is� loaded� into� the� FHigh0�
�and� FHigh1� registers� (fhi[15:0]),� and� the� space� setting�
�is� loaded� into� the� FLow0� and� FLow1� registers� (flo[15:0]).�
�18�
�Transmit� Power� Settings� (5V� Supply)�
�The� output� power� level� is� set� by� entering� a� 5-bit� value�
�into� the� PApwr� register� (papwr[4:0]).� The� highest� setting�
�(30dec� or� 0x1E)� corresponds� to� the� highest� transmit-�
�ted� power� level.� Each� step� is� slightly� less� than� 1dB�
�(approximately� 0.95dB),� with� the� lowest� setting� produc-�
�ing� a� transmitted� power� 28dB� lower� than� the� highest.�
�The� highest� transmitted� power� depends� on� the� load�
�presented� to� the� PA� output.� A� 50� I� or� 60� I� load� produces�
�an� output� power� level� of� +14dBm� to� +15dBm� when� the�
�highest� papwr[4:0]� setting� (0x1E)� is� applied.� Increasing�
�the� load� resistance� reduces� the� output� power� level.�
�Reducing� the� setting� by� one� step� reduces� the� power� by�
�approximately� 1dB,� and� the� minimum� transmitted� power�
�is� still� about� 28dB� below� the� maximum.� For� example,� if�
�the� load� resistance� is� increased� to� the� point� where� the�
�output� power� for� the� maximum� setting� (0x1E)� is� +10dBm,�
�then� the� minimum� setting� (0x00)� produces� an� output�
�power� of� about� -18dBm.�
�Transmit� Power� Settings� (3V� Supply)�
�The� output� power� level� in� 3V� operation� is� set� the� same�
�way� as� in� 5V� operation,� but� the� variation� in� the� 3V� sup-�
�ply� (the� specified� range� is� 2.1V� to� 3.6V)� affects� the�
�maximum� power� that� can� be� transmitted.� If� the� supply�
�is� 3.6V,� then� the� maximum� papwr[4:0]� setting� (0x1E)�
�still� produces� a� +14dBm� to� +15dBm� transmitted� power�
�level.� As� the� supply� voltage� decreases,� the� transmitted�
�power� at� the� highest� settings� is� compressed,� so� that�
�the� top� setting� and� an� increasing� number� of� the� lower�
�settings� produce� the� same� transmitted� power,� which�
�is� lower� than� the� +14dBm� to� +15dBm� achieved� with� a�
�3.6V� supply.� For� example,� a� 2.7V� supply� produces� a�
�maximum� transmitter� power� of� +12dBm� to� +13dBm,� and�
�the� PApwr� register� settings� from� 0x1B� to� 0x1E� (27dec� to�
�30dec)� produce� the� same� transmitter� power.� Below� this�
�compressed� range,� the� power� settings� give� the� same�
�power� levels� that� they� would� give� with� a� 5V� supply.� At�
�the� lowest� supply� level� of� 2.1V,� the� maximum� setting�
�produces� a� maximum� transmitter� power� of� +10dBm,� and�
�the� PApwr� register� settings� from� 0x19� to� 0x1E� (25dec� to�
�30dec)� produce� the� same� transmitter� power.� The� effect�
�of� a� lower� supply� voltage� reduces� the� maximum� power�
�and� the� adjustment� range.� The� power� at� the� lowest� set-�
�ting� remains� unchanged.�
�The� transmitted� power� using� a� 3V� supply� can� be� set�
�higher� than� the� levels� described� in� the� paragraph� above�
�by� connecting� PAOUT� directly� to� PAVDD� and� discon-�
�necting� (leave� open)� the� PAVOUT� pin.� The� tradeoff� of� this�
�connection� is� that� there� is� no� transmit� power� adjustment.�
�Maxim� Integrated�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| MAX7060ATG/V | 制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:280MHz to 450MHz Programmable ASK/FSK Transmitter |
| MAX7060ATG/V+ | 功能描述:射频发射器 300-450 MHz ASK/FSK Transmitter RoHS:否 制造商:Micrel 类型:ASK Transmitter 封装 / 箱体:SOT-23-6 工作频率:300 MHz to 450 MHz 封装:Reel |
| MAX7060ATG/V+T | 功能描述:射频发射器 300-450 MHz ASK/FSK Transmitter RoHS:否 制造商:Micrel 类型:ASK Transmitter 封装 / 箱体:SOT-23-6 工作频率:300 MHz to 450 MHz 封装:Reel |
| MAX7060ATG+ | 功能描述:射频发射器 280-450MHz Prog ASK/FSK Transmitter RoHS:否 制造商:Micrel 类型:ASK Transmitter 封装 / 箱体:SOT-23-6 工作频率:300 MHz to 450 MHz 封装:Reel |
| MAX7060ATG+T | 功能描述:射频发射器 280-450MHz Prog ASK/FSK Transmitter RoHS:否 制造商:Micrel 类型:ASK Transmitter 封装 / 箱体:SOT-23-6 工作频率:300 MHz to 450 MHz 封装:Reel |
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