参数资料
| 型号: | ISL62875HRUZ-T |
| 厂商: | Intersil |
| 文件页数: | 19/22页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM 20UTQFN |
| 标准包装: | 3,000 |
| 系列: | Robust Ripple Regulator™ (R³) |
| PWM 型: | 控制器 |
| 输出数: | 1 |
| 频率 - 最大: | 550kHz |
| 电源电压: | 4.75 V ~ 5.25 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -10°C ~ 100°C |
| 封装/外壳: | 20-UFQFN |
| 包装: | 带卷 (TR) |
��
�
�ISL62875�
�-� t� OFF� is� the� time� required� to� drive� the� device� into�
�cut-off�
�PCB� Layout� Considerations�
�Power� and� Signal� Layers� Placement� on� the�
�PCB�
�As� a� general� rule,� power� layers� should� be� close� together,�
�either� on� the� top� or� bottom� of� the� board,� with� the� weak�
�analog� or� logic� signal� layers� on� the� opposite� side� of� the�
�board.� The� ground-plane� layer� should� be� adjacent� to� the�
�signal� layer� to� provide� shielding.� The� ground� plane� layer�
�should� have� an� island� located� under� the� IC,� the�
�compensation� components,� and� the� SREF� components.�
�The� island� should� be� connected� to� the� rest� of� the� ground�
�plane� layer� at� one� point.�
�Component� Placement�
�There� are� two� sets� of� critical� components� in� a� DC/DC�
�converter;� the� power� components� and� the� small� signal�
�components.� The� power� components� are� the� most� critical�
�because� they� switch� large� amount� of� energy.� The� small�
�signal� components� connect� to� sensitive� nodes� or� supply�
�critical� bypassing� current� and� signal� coupling.�
�The� power� components� should� be� placed� first� and� these�
�include� MOSFETs,� input� and� output� capacitors,� and� the�
�inductor.� Keeping� the� distance� between� the� power� train�
�and� the� control� IC� short� helps� keep� the� gate� drive� traces�
�short.� These� drive� signals� include� the� LGATE,� UGATE,�
�PGND,� PHASE� and� BOOT.�
�When� placing� MOSFETs,� try� to� keep� the� source� of� the�
�upper� MOSFETs� and� the� drain� of� the� lower� MOSFETs� as�
�close� as� thermally� possible� (see� Figure� 13).� Input� high-�
�frequency� capacitors� should� be� placed� close� to� the� drain�
�of� the� upper� MOSFETs� and� the� source� of� the� lower�
�MOSFETs.� Place� the� output� inductor� and� output�
�capacitors� between� the� MOSFETs� and� the� load.� High-�
�frequency� output� decoupling� capacitors� (ceramic)� should�
�be� placed� as� close� as� possible� to� the� decoupling� target�
�(GPUor� CPU),� making� use� of� the� shortest� connection�
�paths� to� any� internal� planes.� Place� the� components� in�
�such� a� way� that� the� area� under� the� IC� has� less� noise�
�traces� with� high� dV/dt� and� di/dt,� such� as� gate� signals� and�
�phase� node� signals.�
�Signal� Ground� and� Power� Ground�
�The� GND� pin� is� the� signal-common� also� known� as� analog�
�ground� of� the� IC.� When� laying� out� the� PCB,� it� is� very�
�important� that� the� connection� of� the� GND� pin� to� the�
�bottom� setpoint-reference� programming-resistor,� bottom�
�feedback� voltage-divider� resistor� (if� used),� and� the�
�CSOFT� capacitor� be� made� as� close� as� possible� to� the�
�GND� pin� on� a� conductor� not� shared� by� any� other�
�components.�
�In� addition� to� the� critical� single� point� connection�
�discussed� in� the� previous� paragraph,� the� ground� plane�
�layer� of� the� PCB� should� have� a� single-point-connected�
�island� located� under� the� area� encompassing� the� IC,�
�setpoint� reference� programming� components,� feedback�
�voltage� divider� components,� compensation� components,�
�CSOFT� capacitor,� and� the� interconnecting� traces� among�
�the� components� and� the� IC.� The� island� should� be�
�connected� using� several� filled� vias� to� the� rest� of� the�
�ground� plane� layer� at� one� point� that� is� not� in� the� path� of�
�either� large� static� currents� or� high� di/dt� currents.� The�
�single� connection� point� should� also� be� where� the� VCC�
�decoupling� capacitor� and� the� GND� pin� of� the� IC� are�
�connected.�
�Anywhere� not� within� the� analog-ground� island� is� Power�
�Ground.� Connect� the� input� capacitor(s),� the� output�
�capacitor(s),� and� the� source� of� the� lower� MOSFET(s)� to�
�the� power� ground� plane.�
�Routing� and� Connection� Details�
�Specific� pins� (and� the� trace� routing� from� them),� require�
�extra� attention� during� the� layout� process.� The� following�
�sub-sections� outline� concerns� by� pin� name.�
�VCC� PIN�
�For� best� performance,� place� the� decoupling� capacitor�
�next� to� the� VCC� and� GND� pins.� The� VCC� decoupling�
�capacitor� should� not� share� any� vias� with� the� PVCC�
�decoupling� capacitor.�
�PVCC� PIN�
�For� best� performance,� place� the� PVCC� decoupling�
�capacitor� next� to� the� PVCC� and� PGND� pins,� preferably� on�
�the� same� side� of� the� PCB� as� the� ISL62875.� The� PVCC�
�decoupling� capacitor� should� have� a� very� short� and� wide�
�trace� connection� to� the� PGND� pin.�
�VIAS� TO�
�GROUND�
�PLANE�
�INDUCTOR�
�HIGH-SIDE�
�MOSFETS�
�GND�
�VOUT�
�PHASE�
�NODE�
�VIN�
�OUTPUT�
�CAPACITORS�
�SCHOTTKY�
�DIODE�
�LOW-SIDE�
�MOSFETS�
�INPUT�
�CAPACITORS�
�EN,� PGOOD,� VID0,� AND� VID1� PINS�
�These� are� logic� signals� that� are� referenced� to� the� GND�
�pin.� Treat� as� a� typical� logic� signal.�
�OCSET� AND� VO� PINS�
�The� current-sensing� network� consisting� of� R� OCSET� ,� R� O� ,�
�and� C� SEN� must� be� connnected� to� the� inductor� pads� for�
�accurate� measurement� of� the� DCR� voltage� drop.� These�
�components� however,� should� be� located� physically� close�
�FIGURE� 13.� TYPICAL� POWER� COMPONENT� PLACEMENT�
�19�
�to� the� OCSET� and� VO� pins� with� traces� leading� back� to� the�
�inductor.� It� is� critical� that� the� traces� are� shielded� by� the�
�ground� plane� layer� all� the� way� to� the� inductor� pads.� The�
�procedure� is� the� same� for� resistive� current� sense.�
�September� 18,� 2009�
�FN6905.1�
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