参数资料
| 型号: | ISL95870BIRZ |
| 厂商: | Intersil |
| 文件页数: | 22/28页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR PWM 1PHASE GPU 20QFN |
| 标准包装: | 75 |
| 应用: | 控制器,GPU 内核电源 |
| 输入电压: | 3.3 V ~ 25 V |
| 输出数: | 1 |
| 输出电压: | 0.5 V ~ 5 V |
| 工作温度: | -40°C ~ 100°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 20-VFQFN 裸露焊盘 |
| 供应商设备封装: | 20-QFN(3x4) |
| 包装: | 管件 |
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�ISL95870,� ISL95870A,� ISL95870B�
�A� DC/DC� buck� regulator� must� have� output� capacitance� C� O� into�
�which� ripple� current� I� P-P� can� flow.� Current� I� P-P� develops� a�
�corresponding� ripple� voltage� V� P-P� across� C� O,� which� is� the� sum� of�
�the� voltage� drop� across� the� capacitor� ESR� and� of� the� voltage�
�change� stemming� from� charge� moved� in� and� out� of� the�
�capacitor.� These� two� voltages� are� expressed� in� Equations� 39�
�UGATE�
�and� 40:�
�Δ� V� C� =� ---------------------------------�
�1V�
�1V�
�Δ� V� ESR� =� I� P-P� ?� E� SR�
�I� P-P�
�8� ?� C� O� ?� F� SW�
�(EQ.� 39)�
�(EQ.� 40)�
�1V�
�LGATE�
�1V�
�If� the� output� of� the� converter� has� to� support� a� load� with� high�
�pulsating� current,� several� capacitors� will� need� to� be� paralleled� to�
�reduce� the� total� ESR� until� the� required� V� P-P� is� achieved.� The�
�inductance� of� the� capacitor� can� significantly� impact� the� output�
�voltage� ripple� and� cause� a� brief� voltage� spike� if� the� load� transient�
�FIGURE� 18.� GATE� DRIVE� ADAPTIVE� SHOOT-THROUGH� PROTECTION�
�General� Application� Design�
�Guide�
�This� design� guide� is� intended� to� provide� a� high-level� explanation� of�
�the� steps� necessary� to� design� a� single-phase� buck� converter.� It� is�
�assumed� that� the� reader� is� familiar� with� many� of� the� basic� skills�
�and� techniques� referenced� in� the� following.� In� addition� to� this�
�guide,� Intersil� provides� complete� reference� designs� that� include�
�schematics,� bills� of� materials,� and� example� board� layouts.�
�Selecting� the� LC� Output� Filter�
�The� duty� cycle� of� an� ideal� buck� converter� is� a� function� of� the�
�input� and� the� output� voltage.� This� relationship� is� expressed� in�
�Equation� 36:�
�has� an� extremely� high� slew� rate.� Low� inductance� capacitors� should�
�be� considered.� A� capacitor� dissipates� heat� as� a� function� of� RMS�
�current� and� frequency.� Be� sure� that� I� P-P� is� shared� by� a� sufficient�
�quantity� of� paralleled� capacitors� so� that� they� operate� below� the�
�maximum� rated� RMS� current� at� F� SW� .� Take� into� account� that� the�
�rated� value� of� a� capacitor� can� fade� as� much� as� 50%� as� the� DC�
�voltage� across� it� increases.�
�Selecting� the� Input� Capacitor�
�The� important� parameters� for� the� bulk� input� capacitors� are� the�
�voltage� rating� and� the� RMS� current� rating.� For� reliable� operation,�
�select� bulk� capacitors� with� voltage� and� current� ratings� above� the�
�maximum� input� voltage� and� capable� of� supplying� the� RMS�
�current� required� by� the� switching� circuit.� Their� voltage� rating�
�should� be� at� least� 1.25x� greater� than� the� maximum� input�
�voltage,� while� a� voltage� rating� of� 1.5x� is� a� preferred� rating.� Figure�
�19� is� a� graph� of� the� input� RMS� ripple� current,� normalized� relative�
�V� O�
�D� =� ---------�
�V� IN�
�(EQ.� 36)�
�to� output� load� current,� as� a� function� of� duty� cycle� that� is� adjusted�
�for� converter� efficiency.� The� ripple� current� calculation� is� written� as�
�Equation� 41:�
�V� O� ?� (� 1� –� D� )�
�I� P-P� =� -------------------------------�
�(EQ.� 38)�
�P� COPPER� =� I� LOAD� ?� DCR�
�(� I� MAX� ?� (� D� –� D� )� )� +� ?� x� ?� I� MAX� ?� ------� ?�
�V� O�
�V� IN� ?� EFF�
�The� output� inductor� peak-to-peak� ripple� current� is� expressed� in�
�Equation� 37:�
�(EQ.� 37)�
�F� SW� ?� L�
�A� typical� step-down� DC/DC� converter� will� have� an� I� PP� of� 20%� to�
�40%� of� the� maximum� DC� output� load� current.� The� value� of� I� P-P� is�
�selected� based� upon� several� criteria� such� as� MOSFET� switching�
�loss,� inductor� core� loss,� and� the� resistive� loss� of� the� inductor�
�winding.� The� DC� copper� loss� of� the� inductor� can� be� estimated�
�using� Equation� 38:�
�2�
�Where,� I� LOAD� is� the� converter� output� DC� current.�
�The� copper� loss� can� be� significant� so� attention� has� to� be� given� to�
�the� DCR� of� the� inductor.� Another� factor� to� consider� when�
�choosing� the� inductor� is� its� saturation� characteristics� at� elevated�
�temperature.� A� saturated� inductor� could� cause� destruction� of�
�circuit� components,� as� well� as� nuisance� OCP� faults.�
�22�
�2� 2� 2� 2� D�
�?� 12� ?� (EQ.� 41)�
�I� IN_RMS� =� --------------------------------------------------------------------------------------------------------�
�I� MAX�
�Where:�
�-� I� MAX� is� the� maximum� continuous� I� LOAD� of� the� converter�
�-� x� is� a� multiplier� (0� to� 1)� corresponding� to� the� inductor�
�peak-to-peak� ripple� amplitude� expressed� as� a� percentage� of�
�I� MAX� (0%� to� 100%)�
�-� D� is� the� duty� cycle� that� is� adjusted� to� take� into� account� the�
�efficiency� of� the� converter�
�Duty� cycle� is� written� as� Equation� 42:�
�D� =� --------------------------� (EQ.� 42)�
�FN6899.1�
�December� 2,� 2013�
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