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参数资料
| 型号: | ISL6232EVAL1 |
| 厂商: | Intersil |
| 文件页数: | 20/25页 |
| 文件大小: | 0K |
| 描述: | EVALUATION BOARD 1 ISL6232 |
| 标准包装: | 1 |
| 主要目的: | DC/DC,LDO 步降 |
| 输出及类型: | 4,非隔离 |
| 输入电压: | 5.5 ~ 25 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 300kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ISL6232 |
��
�
�ISL6232�
�Equation� 8� gives� the� approximate� response� time� interval� for�
�Check� the� current� limit� I� LIMIT� as� shown� in� Equation� 12:�
�STEP�
�STEP�
�� I� LIMIT� =� 65mV�
�R� 8�
�application� and� removal� of� a� step� transient� load:�
�LI� LI�
�V� –� V� V�
�t� rise� ≈� ----------------------------------� ,� T� fall� ≈� ----------------------�
�IN� OUT� OUT�
�(EQ.� 8)�
�---------------------� R� (EQ.� 12)�
�R� 7� +� R� 8� dc1�
�We� have� I� LIMIT� =� 6.5A.� Therefore,� the� circuit� can� easily�
�Where� I� STEP� is� the� transient� load� current� step,� t� rise� and� t� fall�
�are� the� response� time� to� the� application� and� the� removal� of�
�load,� respectively.� The� worst-case� response� time� can� be�
�either� at� the� application� or� removal� of� load.� Be� sure� to� check�
�both� of� these� equations� at� the� minimum� and� maximum�
�output� levels� for� the� worst-case� response� time.�
�Determining� the� Overcurrent� Limit�
�The� minimum� current-limit� threshold� must� be� great� enough�
�to� support� the� maximum� load� current� when� the� current� limit�
�is� at� the� minimum� tolerance� value.� ISL6232� uses� peak�
�current� detection.� The� peak� inductor� current� occurs� at�
�I� OUT,MAX� plus� half� of� the� ripple� current;� therefore,�
�deliver� the� fully� rated� 5A� current.�
�Output� Capacitor� Selection�
�The� output� filter� capacitor� must� have� low� enough� equivalent�
�series� resistance� (ESR)� to� meet� output� ripple� and�
�load-transient� requirements.� The� ISL6232� uses� peak� current�
�mode� control,� which� does� not� require� high� enough� ESR� to�
�satisfy� stability� requirements.� The� output� capacitance� must�
�also� be� high� enough� to� absorb� the� inductor� energy� while�
�transitioning� from� full-load� to� no-load� conditions� without�
�tripping� the� overvoltage� fault� latch.� In� applications� where� the�
�output� is� subject� to� large� load� transients,� the� output� capacitor�
�size� depends� on� how� much� ESR� is� needed� to� prevent� the�
�Δ� I�
�I� LIMIT� >� I� OUTMAX� +� --------�
�L�
�2�
�(EQ.� 9)�
�output� from� dipping� too� low� under� a� load� transient,� ignoring�
�the� sag� due� to� finite� capacitance.�
�The� minimum� current-limit� threshold� voltage� is� 65mV.� For�
�accurate� current� sense-resistor� with� 8m� Ω� ,� the� current� limit�
�The� ESR� of� the� output� capacitors� has� to� meet� the� following�
�equation:�
�V� DIP�
�I� LIMIT� is� 8.1A,� which� is� higher� than� 5.75A,� calculated� from�
�the� above� equation.� So,� the� circuit� can� easily� deliver�
�full-rated� 5A� using� 65mV� current� limit� threshold.�
�ESR� <� ----------------�
�I� STEP�
�(EQ.� 13)�
�For� DCR� of� inductor� current� sensing� (Refer� to� Figure� 29),� if�
�the� voltage� drop� across� the� DCR� of� the� inductor� is� higher�
�than� 65mV,� then� a� resistor� divider� across� the� inductor� has� to�
�be� used� so� that� the� output� voltage� across� the� capacitor�
�reaches� current� limit� threshold� (65mV� minimum)� at� the�
�where� V� DIP� is� the� maximum� tolerable� transient� voltage� drop�
�or� rise.� In� system� power� applications,� the� ESR� of� the� output�
�capacitors� usually� determines� the� steady-state� output�
�voltage� ripple,� which� is� practically� designed� below� 1%� of� the�
�output� voltage.� Thus,� we� have�
�V� P-P�
�Δ� I� L�
�maximum� DCR.� The� inductor� time� constant� has� to� match�
�with� the� RC� current� sensing� network� for� good� current�
�sensing� accuracy,� that� is,�
�ESR� ≤� ------------�
�(EQ.� 14)�
�R� R� 8�
�1�
�7�
�L�
�---------------� ≤� ----------------------� C�
�R� dc1� R� 7� +� R� 8� 16�
�(EQ.� 10)�
�where� V� P-P� is� the� peak-to-peak� output� voltage� ripple.� The�
�actual� capacitance� value� required� relates� to� the� physical� size�
�needed� to� achieve� low� ESR,� as� well� as� to� the� chemistry� of�
�This� requirement� is� not� so� stringent� because� it� is� used� for�
�overcurrent� protection� and� not� for� the� adaptive� output�
�voltage� positioning� applications.� Besides,� DCR� of� the�
�inductor� is� also� a� function� of� the� temperature.� A� good�
�general� rule� for� copper� is� to� allow� 3.9%� additional� resistance�
�for� each� 10°C� of� temperature� rise.� Since� there� is� 1M� Ω� input�
�impedance� from� CS� to� ground,� to� achieve� good� current�
�sensing� accuracy,� R� 7� ,� and� R� 8� have� to� meet� the� following�
�inequality:�
�the� capacitor� technology� and� loop� bandwidth.�
�Since� the� voltage� dip� or� spike� due� to� loop� transient� response�
�is� usually� smaller� than� that� of� voltage� dip� or� spike� due� to�
�ESR� during� the� load� step� transient,� the� capacitor� is� usually�
�selected� by� ESR� and� voltage� rating� rather� than� by�
�capacitance� value.� The� commonly� used� output� capacitors�
�are� POSCAP� from� Sanyo� and� SPCAP� from� Panasonic� due�
�to� smaller� size,� low� ESR� and� reasonable� price.�
�Most� power� supplies� requires� an� overall� voltage� accuracy� of�
�OUT�
�RX�
�R� //� R�
�V�
�------------------------------� ≤� 2mV�
�1� +� --------------------�
�7� 8�
�(EQ.� 11)�
�±5%,� including� steady-state� tolerance,� steady-state� output�
�ripple,� line� regulation� and� step� load� transient� tolerance.� The�
�ISL6232� has� ±1.5%� accuracy� for� the� band� gap,� ±0.5%� for�
�Where� Rx� is� the� input� impedance� from� CS� to� ground.�
�Given� RDC1� =� 15m� Ω� at� +85°C,� L� =� 6.8μH,� we� choose�
�steady-state� output� ripple� and� line� regulation.� This� allows�
�±3%� tolerance� due� to� the� step� load� transient.� For� 5V� output,�
�the� required� ESR� is� given� by� Equation� 15:�
�ESR� ≤� -----------------------� =� 50m� Ω�
�R� 7� =� 1.5k� Ω� ,� R� 8� =� 3k� Ω� ,� and� C� 16� =� 0.47μF.�
�20�
�3%� � 5V�
�3A�
�(Assume� 3A� step� load)�
�(EQ.� 15)�
�FN9116.1�
�April� 20,� 2009�
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