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参数资料
| 型号: | HIP6501ACBZ-T |
| 厂商: | Intersil |
| 文件页数: | 11/14页 |
| 文件大小: | 0K |
| 描述: | IC PWR SUPPLY CONTROLLER 16SOIC |
| 标准包装: | 2,500 |
| 应用: | 电源控制器 |
| 电源电压: | 5V,12V |
| 电流 - 电源: | 20mA |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-SOIC |
| 包装: | 带卷 (TR) |
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�
�HIP6501A�
�?� VOUT� =� I� OUT� � ?� ESR� OUT� +� ------------------� ?� ,� where�
�r� DS� (� ON� )� MAX� =� ------------------------------------------------------------� ,� where�
�capacitance� (aluminum� electrolytics� or� tantalum� capacitors)�
�placement� is� not� as� critical� as� the� high-frequency� capacitor�
�placement,� but� having� these� capacitors� close� to� the� load�
�they� serve� is� preferable.�
�The� only� critical� small� signal� component� is� the� soft-start�
�capacitor,� C� SS� .� Locate� this� component� close� to� SS� pin� of� the�
�control� IC� and� connect� to� ground� through� a� via� placed� close�
�to� the� capacitor� ’s� ground� pad.� Minimize� any� leakage� current�
�paths� from� SS� node,� since� the� internal� current� source� is� only�
�10� μ� A.�
�A� multi-layer� printed� circuit� board� is� recommended.� Figure�
�12� shows� the� connections� of� most� of� the� components� in� the�
�converter.� Note� that� the� individual� capacitors� each� could�
�represent� numerous� physical� capacitors.� Dedicate� one� solid�
�layer� for� a� ground� plane� and� make� all� critical� component�
�ground� connections� through� vias� placed� as� close� to� the�
�component� as� possible.� Dedicate� another� solid� layer� as� a�
�power� plane� and� break� this� plane� into� smaller� islands� of�
�common� voltage� levels.� Ideally,� the� power� plane� should�
�support� both� the� input� power� and� output� power� nodes.� Use�
�copper� filled� polygons� on� the� top� and� bottom� circuit� layers� to�
�create� power� islands� connecting� the� filtering� components�
�(output� capacitors)� and� the� loads.� Use� the� remaining� printed�
�circuit� layers� for� small� signal� wiring.�
�Component� Selection� Guidelines�
�Output� Capacitors� Selection�
�The� output� capacitors� for� all� outputs� should� be� selected� to�
�allow� the� output� voltage� to� meet� the� dynamic� regulation�
�requirements� of� active� state� operation� (S0,� S1).� The� load�
�transient� for� the� various� microprocessor� system’s�
�components� may� require� high� quality� capacitors� to� supply�
�the� high� slew� rate� (di/dt)� current� demands.� Thus,� it� is�
�recommended� that� capacitors� C� OUT1� and� C� OUT2� should� be�
�selected� for� transient� load� regulation.�
�Also,� during� the� transition� between� active� and� sleep� states,�
�there� is� a� short� interval� of� time� during� which� none� of� the�
�power� pass� elements� are� conducting� -� during� this� time� the�
�output� capacitors� have� to� supply� all� the� output� current.� The�
�output� voltage� drop� during� this� brief� period� of� time� can� be�
�approximated� with� the� following� formula:�
�?� tt� ?�
�?� C� OUT� ?�
�?� V� OUT� -� output� voltage� drop�
�ESR� OUT� -� output� capacitor� bank� ESR�
�I� OUT� -� output� current� during� transition�
�C� OUT� -� output� capacitor� bank� capacitance�
�t� t� -� active-to-sleep� or� sleep-to-active� transition� time� (10� μ� s�
�typical)�
�11�
�Since� the� output� voltage� drop� is� heavily� dependent� on� the�
�ESR� (equivalent� series� resistance)� of� the� output� capacitor�
�bank,� the� capacitors� should� be� chosen� to� maintain� the� output�
�voltage� above� the� lowest� allowable� regulation� level.�
�Input� Capacitors� Selection�
�The� input� capacitors� for� an� HIP6501A� application� must� have�
�sufficiently� low� ESR� so� that� the� input� voltage� does� not� dip�
�excessively� when� energy� is� transferred� to� the� output�
�capacitors.� If� the� ATX� supply� does� not� meet� the�
�specifications,� certain� imbalances� between� the� ATX’s�
�outputs� and� the� HIP6501A’s� regulation� levels� could� result� in�
�a� brisk� transfer� of� energy� from� the� input� capacitors� to� the�
�supplied� outputs.� When� transiting� from� active� to� sleep�
�states,� this� phenomena� could� result� in� the� 5VSB� voltage�
�dropping� below� the� POR� level� (typically� 4.3V)� and�
�temporarily� disabling� the� HIP6501A.� The� solution� to� this�
�potential� problem� is� to� use� larger� input� capacitors� (on� 5VSB)�
�with� a� lower� total� combined� ESR.�
�Transistor� Selection/Considerations�
�The� HIP6501A� typically� requires� one� P-Channel� and� two�
�N-Channel� power� MOSFETs� and� two� bipolar� NPN� transistors.�
�One� general� requirement� for� selection� of� transistors� for� all�
�the� linear� regulators/switching� elements� is� package� selection�
�for� efficient� removal� of� heat.� The� power� dissipated� in� a� linear�
�regulator/switching� element� is:�
�P� LINEAR� =� I� O� ×� (� V� IN� –� V� OUT� )�
�Select� a� package� and� heatsink� that� maintains� the� junction�
�temperature� below� the� rating� with� the� maximum� expected�
�ambient� temperature.�
�Q1�
�The� active� element� on� the� 2.5V/3.3V� MEM� output� has�
�different� requirements� for� each� of� the� two� voltage� settings.� In�
�2.5V� systems� utilizing� RDRAM� (or� voltage-compatible)�
�memory,� Q1� must� be� a� bipolar� NPN� capable� of� conducting�
�the� maximum� required� output� current� and� it� must� have� a�
�minimum� current� gain� (h� fe� )� of� 100-150� at� this� current� and�
�0.7V� V� CE� .� In� such� systems,� the� 2.5V� output� is� regulated�
�from� the� ATX� 3.3V� output� while� in� an� active� state.� In� 3.3V�
�systems� (SDRAM� or� compatible)� Q1� must� be� an� N-Channel�
�MOSFET,� since� the� MOSFET� serves� as� a� switch� during�
�active� states� (S0,� S1).� The� main� criteria� for� the� selection� of�
�this� transistor� is� output� voltage� budgeting.� The� maximum�
�r� DS(ON)� allowed� at� highest� junction� temperature� can� be�
�expressed� with� the� following� equation:�
�V� IN� MIN� –� V� OUTMIN�
�I� OUT� MAX�
�V� IN� MIN� -� minimum� input� voltage�
�V� OUT� MIN� -� minimum� output� voltage� allowed�
�I� OUT� MAX� -� maximum� output� current�
�The� gate� bias� available� for� this� MOSFET� is� approximately� 8V.�
�FN4749.6�
�December� 30,� 2004�
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