参数资料
| 型号: | ISL6227IRZ-T |
| 厂商: | Intersil |
| 文件页数: | 25/27页 |
| 文件大小: | 0K |
| 描述: | IC CONTROLLER DDR, DDR2 28QFN |
| 标准包装: | 6,000 |
| 应用: | 控制器,DDR,DDR2 |
| 输入电压: | 5 V ~ 28 V |
| 输出数: | 2 |
| 输出电压: | 0.9 V ~ 5.5 V |
| 工作温度: | -40°C ~ 100°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-VFQFN 裸露焊盘 |
| 供应商设备封装: | 28-QFN 裸露焊盘(5x5) |
| 包装: | 带卷 (TR) |
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�ISL6227�
�PHASE1� and� PHASE2�
�These� traces� should� be� short,� and� positioned� away� from� other�
�weak� signal� traces.� The� phase� node� has� a� very� high� dv/dt� with�
�a� voltage� swing� from� the� input� voltage� to� ground.� No� trace�
�should� be� in� parallel� with� these� traces.� These� traces� are� also�
�the� return� path� for� UGATE1� and� UGATE2.� Connect� these� pins�
�to� the� respective� converter’s� upper� MOSFET� source.�
�Pin� 5� and� Pin� 24,� the� UGATE1� and� UGATE2�
�These� pins� have� a� square� shape� waveform� with� high� dv/dt.� It�
�provides� the� gate� drive� current� to� charge� and� discharge� the�
�top� MOSFET� with� high� di/dt.� This� trace� should� wide,� short,�
�and� away� from� other� traces� similar� to� the� LGATEx.�
�BOOT1� and� BOOT2�
�These� pins� di/dt� are� as� high� as� that� of� the� UGATEx;�
�therefore,� the� traces� should� be� as� short� as� possible.�
�ISEN1� and� ISEN2�
�The� ISEN� trace� should� be� a� separate� trace,� and�
�independently� go� to� the� drain� terminal� of� the� lower� MOSFET.�
�The� current� sense� resistor� should� be� close� to� ISEN� pin.�
�The� loop� formed� by� the� bottom� MOSFET,� output� inductor,�
�and� output� capacitor,� should� be� very� small.� The� source� of�
�the� bottom� MOSFET� should� tie� to� the� negative� side� of� the�
�output� capacitor� in� order� for� the� current� sense� pin� to� get� the�
�voltage� drop� on� the� r� DS(ON)� .�
�EN1� and� EN2�
�These� pins� stay� high� in� enable� mode� and� low� in� idle� mode�
�and� are� relatively� robust.� Enable� signals� should� refer� to� the�
�signal� ground.�
�PG1� and� PG2/REF�
�For� dual� switcher� operations,� these� two� lines� are� less� noise�
�sensitive.� For� DDR� applications,� a� capacitor� should� be�
�placed� to� the� PG2/REF� pin.�
�DDR�
�This� pin� should� connect� to� VCC� in� DDR� applications,� and� to�
�signal� ground� in� dual� switcher� applications.�
�VIN�
�This� pin� connects� to� battery� voltage,� and� is� less� noise� sensitive.�
�Copper� Size� for� the� Phase� Node�
�Big� coppers� on� both� sides� of� the� Phase� node� introduce�
�parasitic� capacitance.� The� capacitance� of� PHASE� should� be�
�kept� very� low� to� minimize� ringing.� If� ringing� is� excessive,� it�
�could� easily� affect� current� sample� information.� It� would� be�
�best� to� limit� the� size� of� the� PHASE� node� copper� in� strict�
�accordance� with� the� current� and� thermal� management� of� the�
�application.�
�Identify� the� Power� and� Signal� Ground�
�The� input� and� output� capacitors� of� the� converters,� the� source�
�terminals� of� the� bottom� switching� MOSFET� PGND1,� and�
�PGND2,� should� be� closely� connected� to� the� power� ground.�
�The� other� components� should� connect� to� signal� ground.�
�Signal� and� power� ground� are� tied� together� at� the� negative�
�terminal� of� the� output� capacitors.�
�Decoupling� Capacitor� for� Switching� MOSFET�
�It� is� recommended� that� ceramic� caps� be� used� closely�
�connected� to� the� drain� side� of� the� upper� MOSFET,� and� the�
�source� of� the� lower� MOSFET.� This� capacitor� reduces� the�
�noise� and� the� power� loss� of� the� MOSFET.� Refer� to� Figure� 43�
�for� the� power� component� placement.� IN�
�VOUT1� and� VOUT2�
�These� pins� connect� either� to� the� output� voltage� or� to� the�
�signal� ground.� They� are� signal� lines� and� should� be� kept�
�away� from� noisy� lines.�
�VSEN1� and� VSEN2�
�-� -� VIN�
�.�
�1�
�+� +�
�8�
�There� is� usually� a� resistor� divider� connecting� the� output�
�voltage� to� this� pin.� The� input� impedance� of� these� two� pins� is�
�high� because� they� are� the� input� to� the� amplifiers.� The� correct�
�layout� should� bring� the� output� voltage� from� the� regulation�
�point� to� the� SEN� pin� with� kelvin� traces.� Build� the� resistor�
�V� o� V�
�-� -�
�O�
�+� +�
�OUTPUT�
�CAP�
�2�
�3�
�4�
�SI4816DY�
�7�
�6�
�5�
�divider� close� to� the� pin� so� that� the� high� impedance� trace� is�
�shorter.�
�L� o�
�L� o�
�OCSET1� and� OCSET2�
�In� dual� switcher� mode� operation,� the� overcurrent� set� resistor�
�should� be� put� close� to� this� pin.� In� DDR� mode� operation,� the�
�voltage� divider,� which� divides� the� VDQQ� voltage� in� half,�
�should� be� put� very� close� to� this� pin.� The� other� side� of� the� OC�
�set� resistor� should� connect� to� signal� ground.�
�SOFT1� and� SOFT2�
�The� soft-start� capacitors� should� be� laid� out� close� to� this� pin.�
�The� other� side� of� the� soft-start� cap� should� tie� to� signal� ground.�
�25�
�INDUCTOR�
�L� O�
�FIGURE� 43.� A� GOOD� EXAMPLE� POWER� COMPONENT�
�REPLACEMENT.� IT� SHOWS� THE� NEGATIVE� OF� INPUT�
�AND� OUTPUT� CAPACITOR� AND� SOURCE� OF� THE�
�MOSFET� ARE� TIED� AT� ONE� POINT.�
�FN9094.7�
�May� 4,� 2009�
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