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| 型号: | MC13892JVLR2 |
| 厂商: | Freescale Semiconductor |
| 文件页数: | 96/158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�
�BATTERY� INTERFACE� AND� CONTROL�
�CHARGER� OPERATION�
�USB� CHARGING�
�The� USB� VBUS� line� in� this� case,� is� used� to� provide� a� supply� within� the� USB� voltage� limits� and� with� at� least� 500� mA� of� current�
�drive� capability.�
�When� trickle� charging� from� the� USB� cable,� it� is� important� not� to� exceed� the� 100� mA,� in� case� of� a� legacy� USB� bus.� The�
�appropriate� charge� current� level� ICHRG[2:0]� =� (0001)� is� 80� mA� typical� which� accounts� for� the� additional� current� through� the�
�charge� LED� indicator.�
�WALL� CHARGING�
�No� distinction� can� be� made� between� a� USB� Host� or� a� wall� charger.� Therefore,� when� attaching� a� wall� charger,� the� CHRGSE1B�
�pin� must� be� forced� low� as� a� charger� attach� indicator.� The� CHRGSE1B� pin� has� a� built-in� weak� pull-up� to� VCORE.� In� the�
�application,� this� pin� is� preferably� pulled� low,� with� for� instance� an� NPN� of� which� the� base� is� pulled� high� through� a� resistor� to�
�CHRGRAW.� The� state� of� the� CHRGSE1B� pin� is� reflected� through� the� CHRGSE1BS� bit.� When� CHRGSE1B� changes� state� a�
�CHRGSE1BI� is� generated.� No� specific� debounce� is� applied� to� the� CHRGSE1B� detector.�
�Table� 76.� Charger� Detector� Characteristics�
�Parameter�
�CHRGSE1B� Pull-up�
�Logic� Low�
�Logic� High�
�Condition�
�To� VCORE�
�Min�
�–�
�0.0�
�1.0�
�Typ�
�100�
�–�
�–�
�Max�
�–�
�0.3�
�VCORE�
�Units�
�kOhm�
�V�
�V�
�If� an� application� is� to� support� wall� chargers� and� USB� on� separate� connectors,� it� is� advised� to� separate� the� VBUS� and� the�
�CHRGRAW� on� the� PCB.� For� these� applications,� charging� from� USB� is� no� longer� possible.� For� proper� operation,� a� 120� kOhm�
�pull-down� resistor� should� be� placed� at� VBUS.�
�STANDALONE� CHARGING�
�A� standalone� charge� mode� of� operation� is� provided� to� minimize� software� interaction.� It� also� allows� for� a� completely� discharged�
�battery� to� be� revived� without� processor� control.� This� is� especially� important� when� charging� from� a� USB� host� or� when� in� single�
�path� configuration� (M3� replaced� by� short,� BATTFET� floating).� Since� the� default� voltage� and� current� setting� of� the� charge� path�
�regulator� may� not� be� the� optimum� choice� for� a� given� application,� these� values� can� be� reprogrammed� through� the� SPI� if� the�
�CHGAUTOVIB� bit� is� set.� Note� that� the� power� limiter� can� be� programmed� independent� of� this� bit� being� set.�
�Upon� connecting� a� USB� host� to� the� application� with� a� dead� battery,� the� trickle� cycle� is� started� and� the� current� set� to� the� lowest�
�charge� current� level� (80� mA).� When� the� battery� voltage� rises� above� the� BATTON� =� 3.4� V� threshold,� a� power� up� sequence� is�
�automatically� initiated.� The� lowest� charge� current� level� remains� selected� until� a� higher� charge� current� level� is� set� through� the� SPI�
�after� negotiation� with� the� USB� host.� In� case� of� a� power� up� failure,� a� second� power� up� will� not� be� initiated� to� avoid� an� ambulance�
�mode,� the� charger� circuitry� will� though� continue� to� charge.� The� USB� dead� battery� operation� following� the� low-power� boot� scheme�
�is� described� further� in� this� chapter.�
�Upon� connecting� a� charger� to� an� application� with� a� dead� battery� the� behavior� will� be� different� for� serial� path� and� single� path�
�configurations.�
�In� serial� path� (M3� present),� the� application� will� be� powered� up� with� the� current� through� M1M2� set� to� 500� mA� minimum.� The�
�internal� trickle� charge� current� source� will� be� enabled,� set� to� its� lowest� level� (40� mA)� up� to� BATTMIN,� followed� by� the� highest�
�setting� (80� mA).� The� internal� trickle� charge� current� is� not� programmable,� but� can� be� turned� off� by� the� SPI.� In� this� mode,� the�
�voltage� and� current� regulation� to� BP� through� the� external� pass� devices� M1M2� can� be� reprogrammed� through� the� SPI.� Once� the�
�battery� is� greater� than� BATTON,� it� will� be� connected� to� BP� and� further� charged� through� M1/M2� at� the� same� time� as� the�
�application.�
�In� single� path� (M3� replaced� by� a� short,� BATTFET� floating),� the� battery� (and� therefore� BP)� is� below� the� BPON� threshold.� This�
�will� be� detected� and� the� external� charge� path� will� be� used� to� precharge� the� battery,� up� to� BATTMIN� at� the� lowest� level� (80� mA),�
�and� above� at� the� 500� mA� minimum� level.� Once� exceeding� BPON,� a� turn� on� event� is� generated� and� the� voltage� and� current� levels�
�can� be� reprogrammed.�
�When� in� the� serial� path� and� upon� initialization� of� the� charger� circuitry,� and� it� appears� BP� stays� below� BPON,� the� application�
�will� not� be� powered� up,� and� the� same� charging� scheme� is� followed� as� for� single� path.�
�MC13892�
�Analog� Integrated� Circuit� Device� Data�
�96�
�Freescale� Semiconductor�
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