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| 型号: | MC13892JVLR2 |
| 厂商: | Freescale Semiconductor |
| 文件页数: | 112/158页 |
| 文件大小: | 0K |
| 描述: | IC PMU I.MX51/37/35/27 186MAPBGA |
| 标准包装: | 1,000 |
| 应用: | 电池管理,显示器(LED 驱动器),手持/移动设备,电源 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 186-LFBGA |
| 供应商设备封装: | 186-PBGA(12x12) |
| 包装: | 带卷 (TR) |
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��
�
�FUNCTIONAL� DEVICE� OPERATION�
�CONNECTIVITY�
�Table� 99.� VUSB� Input� Source� Control�
�Parameter�
�VUSBIN�
�Value�
�0�
�1�
�Function�
�Powered� by� Host:� UVBUS� powers� VUSB�
�OTG� mode:� SWBST� internally� switched� to� supply� the� VUSB� regulator,� and� SWBST� will� drive� VBUS� from� the�
�VUSBIN� pin� as� long� as� VBUSEN� pin� is� logic� high� =� 1�
�Notes�
�86.� Note� that� (VUSBIN� =� 1� and� VBUSEN� =� 1)� only� closes� the� switch� between� the� VINUSB� and� UVBUS� pins,� but� does� not� enable� the�
�SWBST� boost� regulator� (which� should� be� enabled� with� OTGSWBSTEN� =� 1).�
�87.� VUSBIN� SPI� bit� initialized� by� PUMS2� pin� configuration� at� cold� start�
�PUMS2� =� Open,� VUSBIN� =� 0�
�PUMS2� =� Ground,� VUSBIN� =� 1�
�The� VBUSEN� pin� along� with� the� VUSBIN� SPI� bit� shown� in� Table 99� ,� control� switching� SWBST� to� drive� VBUS� in� OTG� mode.�
�When� VBUSEN� =� 1� and� VUSBIN� =� 1,� SWBST� will� be� driving� the� VBUS.� In� all� other� cases,� the� switch� from� VINUSB� to� UVBUS�
�will� be� open.� The� VUSBIN� SPI� bit� is� initialized� by� the� PUMS2� pin� configuration� at� cold� start.� When� the� PUMS2� is� open� the�
�VUSBIN� SPI� bit� will� default� to� 0,� and� when� PUMS2� is� grounded� the� VUSBIN� SPI� bit� will� default� to� 1.� When� PUMS2� is� grounded,�
�the� SWBST� will� also� be� enabled� by� default� by� setting� the� OTGSWBSTEN� bit� =� 1.� Note� that� (VBUSEN� =� 1� and� VUSBIN� =� 1)� only�
�closes� the� switch� between� VINUSB� and� UVBUS� pins,� but� does� not� enable� SWBST� (this� needs� to� be� enabled� by� setting� the� SPI�
�bit� OTGSWBSTEN� =� 1).�
�In� OTG� mode,� VUSB� and� VUSB2� will� be� automatically� enabled� by� setting� the� SPI� bit� VUSBIN� to� a� 1.� When� SWBST� is�
�supplying� the� UVBUS� pin� (OTG� Mode),� it� will� generate� VBUSVALID� and� BVALID� interrupts.� These� interrupts� should� not� be�
�interpreted� as� being� powered� by� the� host� by� the� software,� and� the� VUSB� supply� will� continue� to� be� supplied� by� the� SWBST�
�output.� To� prevent� the� charger� from� charging� in� OTG� mode,� the� charger� should� be� put� into� software� controlled� mode� by� setting�
�the� CHGAUTOB� =� 1,� and� the� charge� current� set� to� 0� prior� to� enabling� the� SWBST� to� supply� the� UVBUS� pin.�
�The� VUSB� regulator� defaults� to� on� when� PUMS2� =� Ground,� and� is� supplied� by� the� SWBST� output.� If� a� USB� host� is� attached,�
�the� switchover� to� supply� the� VUSB� input� by� the� USB� cable� (UVBUS� pin)� is� a� manual� switchover,� which� will� require� the� following�
�steps� via� software� to� switch� over� properly:� receive� BVALID� interrupt,� disable� the� VUSB� regulator� (VUSBEN� =� 0),� change� the� input�
�VUSB� to� UVBUS� instead� of� SWBST� (set� VINUSB� =� 0),� and� then� enable� the� VUSB� regulator� (VUSBEN� =� 1).� It� will� be� up� to� the�
�processor� to� determine� what� type� of� device� is� connected,� either� a� USB� host� or� a� wall� charger,� and� take� appropriate� action.�
�When� the� PUMS2� =� OPEN,� the� VUSB� regulator� will� default� to� off,� unless� 5.0� V� is� present� on� the� UVBUS� pin.� If� UVBUS� is�
�detected� during� cold� start� then� the� VUSB� regulator� will� be� enabled� and� powered� on� in� the� sequence,� shown� in� Power� Control�
�System� ,� and� it� will� default,� which� is� supplied� by� the� UVBUS� pin.� If� UVBUS� is� not� detected� at� cold� start� then� the� VUSB� will� default�
�to� off.� If� UVBUS� is� detected� later,� the� VUSB� regulator� will� be� automatically� be� enabled� and� supplied� from� the� UVBUS� pin.�
�The� VUSB� regulator� can� be� enabled� independent� of� OTG� or� Host� Mode� by� setting� the� VUSBEN� SPI� bit� The� VUSBEN� SPI� bit�
�is� initialized� by� at� startup� based� on� the� PUMS2� configuration.� With� PUMS2� OPEN,� the� VUSBEN� will� default� to� a� 1� on� power� up�
�and� will� reset� to� a� 1,� when� either� RESETB� is� valid� or� VBUS� is� invalid.� This� allows� the� VUSBEN� regulator� to� be� enabled�
�automatically� if� the� VUSB� regulator� was� disabled� by� software.� With� PUMS2� =� GND� the� VUSBEN� bit� will� be� enabled� in� the� power�
��Since� UVBUS� is� shared� with� the� charger� input� at� the� board� level� (see� Battery� Interface� and� Control� ),� the� UVBUS� node� must�
�be� able� to� withstand� the� same� high� voltages� as� the� charger.� In� over-voltage� conditions,� the� VUSB� regulator� is� disabled.� The�
�following� tables� show� the� USB� supplies.�
�VUSB2� is� implemented� with� an� integrated� PMOS� pass� FET� and� has� a� dedicated� supply� pin� VINUSB2.� The� pin� VINUSB2�
�should� always� be� connected� to� BP� even� in� cases� where� the� regulators� are� not� used� by� the� application.�
�Table� 100.� VUSB2� Voltage� Control�
�Parameter�
�VUSB2[1:0]�
�Value�
�00�
�01�
�10�
�11�
�Function�
�output� =� 2.400� V�
�output� =� 2.600� V�
�output� =� 2.700� V�
�output� =� 2.775� V�
�ILoad� max�
�50� mA�
�50� mA�
�50� mA�
�50� mA�
�MC13892�
�Analog� Integrated� Circuit� Device� Data�
�112�
�Freescale� Semiconductor�
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