参数资料
| 型号: | LTC3816IFE#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 33/44页 |
| 文件大小: | 0K |
| 描述: | IC CONTROLLER S-PHASE 38TSSOP |
| 标准包装: | 50 |
| 应用: | 控制器,Intel IMVP-6,IMVP-6.5? |
| 输入电压: | 4.5 V ~ 36 V |
| 输出数: | 1 |
| 输出电压: | 0.013 V ~ 1.5 V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 38-TFSOP (0.173",4.40mm 宽)裸露焊盘 |
| 供应商设备封装: | 38-TSSOP 裸露焊盘 |
| 包装: | 管件 |
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�LTC3816�
�APPLICATIONS� INFORMATION�
�8� ?� f� OSC� ?� (� C� BULK� CER� )� ?� ?�
�?� V� OUT� ≈� ?� I� L� ?� R� ESR� +�
�?� I� L� (� MAX� )�
�I� L� (� PEAK� )� =� I� LOAD� (� MAX� )� +�
�TheresistivecomponentofthebulkcapacitorESRmust�
�be� small� enough� that� under� a� load� release,� ESR� multiplied�
�by� the� change� in� load� current� must� meet� the� following�
�criteria:�
�?� V� OUT(LOAD)� >� ?� I� LOAD� ?� R� ESR�
�The� ceramic� capacitors� at� the� regulator� output� help� to�
�absorb� some� of� the� change� in� the� load� current� and� reduce�
�the� ESR� voltage� step� predicted� by� the� above� equation.� High�
�performance� ceramic� capacitors� also� help� to� lower� the�
�regulator� output� voltage� perturbation� caused� by� the� high�
�slew� rate� change� in� the� inductor� current� flowing� through�
�the� bulk� capacitor� parasitic� ESL.�
�The� total� amount� of� output� capacitance� required� is� also�
�restricted� by� the� steady-state� output� voltage� ripple.� The�
�output� ripple,� ?� V� OUT� ,� in� continuous� mode� is� determined�
�by:�
�?� 1� ?�
�?� +� C�
�where� f� OSC� =� operating� frequency� and� ?� I� L� =� ripple� current�
�in� the� inductor.� The� output� ripple� is� highest� at� maximum�
�input� voltage� since� ?� I� L� increases� with� input� voltage.� The�
�first� term� in� the� ripple� voltage� equation� relates� to� the�
�ripple� current� into� the� ESR� of� the� output� capacitor,� which�
�dominates� the� output� ripple� voltage.� The� second� term�
�guarantees� that� the� output� capacitance� does� not� signifi-�
�cantly� discharge� during� the� operating� frequency� period�
�due� to� ripple� current.�
�Note� that� the� IMVP-6� or� IMVP-6.5� application� specifies�
�extremely� low� output� voltage� deviations.� Therefore,� the�
�output� capacitor� selection� should� be� carefully� considered.�
�The� regulator� should� be� located� in� close� proximity� to� the�
�CPU.� The� bulk� capacitor� needs� to� be� as� close� as� possible�
�to� the� power� supply� pins� of� the� processor� to� minimize� the�
�parasitic� inductance� between� the� decoupling� capacitor� and�
�the� load.� In� addition,� multiple� high� performance� ceramic�
�capacitors� are� normally� placed� in� the� processor� socket�
�cavity� to� compensate� for� the� PCB� parasitic� resistance�
�and� inductance.�
�The� Sanyo� OS-CON� semiconductor� electrolyte� capacitor�
�is� one� possible� choice� for� high� performance� through-hole�
�capacitors.� In� surface� mount� applications,� multiple� paral-�
�lel� capacitors� are� required� to� meet� the� ESR� or� transient�
�current� handling� requirements.� Aluminum� electrolytic�
�and� dry� tantalum� capacitors� are� both� available� in� surface�
�mount� configurations.� New� special� polymer� surface� mount�
�capacitors� offer� very� low� ESR� but� have� much� lower� ca-�
�pacitive� density� per� unit� volume.� In� the� case� of� tantalum,�
�it� is� critical� that� the� capacitors� are� surge� tested� for� use� in�
�switching� power� supplies.� Several� excellent� output� capaci-�
�tor� choices� are� the� Sanyo� POSCAP� TPF,� TPL� and� TPLF,� or�
�the� Panasonic� SP� series.� Consult� the� manufacturer� for�
�other� specific� recommendations.�
�INDUCTOR� SELECTION�
�The� inductor� in� a� typical� LTC3816� circuit� is� chosen� primarily�
�for� its� saturation� current� and� inductance� value.� The� induc-�
�tor� DC� rated� current� should� be� larger� than� the� expected�
�peak� current� which� is� equal� to:�
�2�
�In� addition,� the� selected� inductor� must� be� able� to� withstand�
�2� � I� LOAD(MAX)� for� a� short� duration� without� saturation� (see�
�the� Current� Limit� section).�
�The� inductor� value� sets� the� ripple� current,� which� is� com-�
�monly� chosen� at� around� 20%� to� 30%� of� the� anticipated�
�full� load� current.� Higher� inductance� reduces� ripple� cur-�
�rent,� core� losses� in� the� inductor,� ESR� losses� in� the� output�
�capacitors� and� output� voltage� ripple.� But,� under� rapid�
�loading� conditions,� higher� inductance� results� in� higher�
�peak-to-peak� transient� deviations.� A� lower� value� inductor�
�reduces� the� number� of� output� capacitors� and� requires� a�
�smaller� PCB� footprint� for� the� LC� filter.� Highest� efficiency�
�operation� is� obtained� at� low� frequency� with� small� ripple�
�current.� However,� achieving� this� requires� a� large� induc-�
�tor� and� higher� output� ripple� under� transient� conditions.�
�There� is� a� trade-off� between� component� size,� efficiency�
�3816f�
� �
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