参数资料
| 型号: | ADP1046ACPZ-RL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 86/92页 |
| 文件大小: | 0K |
| 描述: | IC DGTL CTRLR 32LFCSP |
| 标准包装: | 5,000 |
| 应用: | 电源 |
| 输入电压: | 0 V ~ 1.6 V |
| 电源电压: | 3 V ~ 3.6 V |
| 电流 - 电源: | 20mA |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-WFQFN 裸露焊盘,CSP |
| 供应商设备封装: | 32-LFCSP-WQ(5x5) |
| 包装: | 带卷 (TR) |
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�ADP1046�
�ADJUSTING� THE� TIMING� OF� THE� PWM� OUTPUTS�
�To� accurately� adjust� the� timing� of� the� PWM� outputs,� the�
�following� registers� can� be� used� to� set� the� dead� time� and� delays�
�of� the� PWM� outputs:� Register� 0x41,� Register� 0x43,� Register� 0x45,�
�Register� 0x47,� Register� 0x49,� Register� 0x4B,� Register� 0x4D,�
�Register� 0x4F,� Register� 0x51,� Register� 0x53,� Register� 0x55,� and�
�Register� 0x57.� The� resolution� for� adjusting� the� dead� time� is� 5� ns.�
�Refer� to� the� Resonant� Mode� Register� Descriptions� section� for�
�more� information.� The� software� GUI� for� the� ADP1046� can� be�
�used� to� set� the� frequency� limit� registers,� as� well� as� all� other�
�settings� related� to� the� resonant� mode� of� operation.�
�FREQUENCY� LIMIT� SETTING�
�The� minimum� frequency� is� set� by� Register� 0x42� and� the� first�
�four� bits� of� Register� 0x44.�
�For� example,� Register� 0x42� is� set� to� 0xA0� (160� decimal)� and�
�Bits[7:4]� of� Register� 0x44� are� set� to� 0xF� (15� decimal).�
�The� maximum� switching� cycle� is�
�(160� ×� 16� +� 15)� ×� 5� ns� =� 12.875� μs�
�The� lowest� switching� frequency� limit� is�
�1/12.875� μs� =� 77.7� kHz�
�The� maximum� frequency� is� set� by� Register� 0x46� and� by�
�Bits[7:4]� of� Register� 0x48.�
�For� example,� Register� 0x46� is� set� to� 0x10� (16� decimal)� and�
�Bits[7:4]� of� Register� 0x48� are� set� to� 0x9� (9� decimal).�
�The� minimum� switching� cycle� is�
�(16� ×� 16� +� 9)� ×� 5� ns� =� 1.325� μs�
�The� highest� switching� frequency� limit� is�
�1/1.325� μs� =� 755� kHz�
�FEEDBACK� CONTROL� IN� RESONANT� MODE�
�In� contrast� to� a� traditional� fixed� frequency� PWM� converter,� the�
�output� voltage� of� a� resonant� converter� is� regulated� by� changing�
�the� switching� frequency.� When� the� ADP1046� is� operated� in�
�resonant� mode,� the� switching� frequency� decreases� when� the�
�sensed� voltage� is� lower� than� the� reference� voltage.� This� makes�
�the� ADP1046� capable� of� controlling� a� resonant� converter� in�
�zero-voltage� switching� (ZVS)� mode.�
�Although� the� switching� frequency� is� variable,� the� high�
�frequency� feedback� voltage� sampling� frequency� (VS3±� pins)�
�is� fixed� at� 400� kHz.� The� parameters� of� the� feedback� filter� are�
�based� on� this� frequency.� The� method� for� calculating� the� filter�
�parameters� (gains,� zeros,� and� poles)� is� the� same� as� that� for� the�
�fixed� frequency� PWM� mode� (see� the� Digital� Filter� section).�
�Data� Sheet�
�SOFT� START� IN� RESONANT� MODE�
�During� soft� start,� the� reference� voltage� of� the� ADP1046� ramps�
�up.� With� the� feedback� loop� closed,� the� switching� frequency� is�
�reduced� from� the� highest� limit� to� a� regulation� value.� The� soft�
�start� timing� settings� and� the� filter� settings� are� the� same� as� those�
�for� the� fixed� frequency� PWM� mode� (see� the� Soft� Start� section).�
�LIGHT� LOAD� OPERATION� (BURST� MODE)�
�To� control� the� converter� at� very� light� load,� the� ADP1046� can�
�operate� in� burst� mode.� Burst� mode� can� be� enabled� or� disabled�
�using� Bits[7:6]� of� Register� 0x4A.� When� the� desired� switching�
�frequency� is� higher� than� the� burst� mode� threshold,� the� part�
�enters� burst� mode.� The� threshold� is� determined� by� the� maxi-�
�mum� frequency� and� the� burst� mode� offset� setting.�
�The� threshold� value� used� to� enter� burst� mode� is� determined� as�
�follows:�
�Threshold� value� for� burst� mode� =�
�((Register� 0x46� � 16)� +� Register� 0x48[7:4])� +�
�(Register� 0x4A[5:0]� � 2)�
�The� threshold� value� used� to� exit� burst� mode� is� determined� by�
�the� entrance� value� plus� 0x10.�
�For� example,� Register� 0x46� is� set� to� 0x10� (16� decimal),� Bits[7:4]�
�of� Register� 0x48� are� set� to� 0,� and� Bits[5:0]� of� Register� 0x4A� are�
�set� to� 0x8� (8� decimal).�
�The� minimum� switching� cycle� is�
�(16� ×� 16� +� 0)� ×� 5� ns� =� 1.28� μs�
�The� highest� switching� frequency� limit� is�
�1/1.28� μs� =� 781� kHz�
�The� threshold� to� enter� burst� mode� is�
�[(16� ×� 16� +� 0)� +� (8� ×� 2)]� ×� 5� ns� =� 1.36� μs�
�When� the� desired� switching� frequency� is� higher� than�
�1/1.36� μs� =� 735� kHz,� the� PWM� outputs� are� shut� down�
�and� the� part� enters� burst� mode.�
�The� threshold� to� exit� burst� mode� is�
�[(16� ×� 16� +� 0)� +� (8� ×� 2)� +� 16]� ×� 5� ns� =� 1.44� μs�
�Therefore,� when� the� desired� switching� frequency� becomes� lower�
�than� 1/1.44� μs� =� 694� kHz,� the� PWM� signals� are� reenabled,� and�
�the� part� exits� burst� mode.�
�OUTAUX� IN� RESONANT� MODE�
�In� resonant� mode,� the� OUTAUX� pin� cannot� be� used� as� a� control�
�signal.� However,� OUTAUX� can� be� used� as� a� fixed� frequency�
�PWM� signal� with� a� fixed� duty� cycle.�
�PROTECTIONS� IN� RESONANT� MODE�
�All� of� the� flags� and� protections� that� are� available� in� resonant� mode�
�behave� in� the� same� manner� as� in� fixed� frequency� PWM� mode.�
�Rev.� B� |� Page� 86� of� 92�
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