参数资料
| 型号: | ISL6336AIRZ |
| 厂商: | Intersil |
| 文件页数: | 28/31页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR PWM 6PHASE BUCK 48-QFN |
| 标准包装: | 43 |
| 应用: | 控制器,Intel VR11.1 |
| 输入电压: | 3 V ~ 12 V |
| 输出数: | 1 |
| 输出电压: | 0.5 V ~ 1.6 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 48-VFQFN 裸露焊盘 |
| 供应商设备封装: | 48-QFN(7x7) |
| 包装: | 管件 |
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�ISL6336,� ISL6336A�
�R� 1� =� R� FB� -----------------------------------------�
�C� 1� =� -----------------------------------------�
�Δ� V� ≈� (� ESL� )� ?� -----� +� (� ESR� )� ?� Δ� I�
�(EQ.� 39)�
�C� (� ESR� )�
�LC� –� C� (� ESR� )�
�LC� –� C� (� ESR� )�
�R� FB�
�response,� the� output� voltage� initially� deviates� by� an� amount,�
�as� shown� in� Equation� 39:�
�di�
�dt�
�The� filter� capacitor� must� have� sufficiently� low� ESL� and� ESR�
�(� 2� π� )� 2� f� 0� f� HF� LCR� FB� V� P-P�
�V� PP� ?� 2� π� ?� f� 0� f� HF� LCR� FB�
�R� C� =� ---------------------------------------------------------------------�
�?� 2� π� f�
�HF� LC� –� 1� ?�
�?�
�0.75� V�
�0.75V� IN�
�C� 2� =� --------------------------------------------------------------------�
�2�
�?� ?�
�?�
�IN�
�(EQ.� 38)�
�so� that� Δ� V� <� Δ� V� MAX� .�
�Most� capacitor� solutions� rely� on� a� mixture� of� high-frequency�
�capacitors� with� relatively� low� capacitance� in� combination�
�with� bulk� capacitors� having� high� capacitance� but� limited�
�high-frequency� performance.� Minimizing� the� ESL� of� the�
�high-frequency� capacitors� allows� them� to� support� the� output�
�voltage� as� the� current� increases.� Minimizing� the� ESR� of� the�
�bulk� capacitors� allows� them� to� supply� the� increased� current�
�0.75V� IN� ?� 2� π� f�
�(� 2� π� )� 2� f� 0� f� HF� LCR� FB� V� P-P�
�?�
�?� HF� LC� –� 1� ?�
�C� C� =� --------------------------------------------------------------------�
�In� Equation� 38,� L� is� the� per-channel� filter� inductance� divided�
�by� the� number� of� active� channels;� C� is� the� sum� total� of� all�
�output� capacitors;� ESR� is� the� equivalent-series� resistance� of�
�the� bulk� output-filter� capacitance;� and� V� PP� is� the� peak-�
�to-peak� sawtooth� signal� amplitude� as� described� in� the�
��with� less� output� voltage� deviation.�
�The� ESR� of� the� bulk� capacitors� also� creates� the� majority� of�
�the� output-voltage� ripple.� As� the� bulk� capacitors� sink� and�
�source� the� inductor� ac� ripple� current� (see� “Interleaving”� on�
�page� 11� and� Equation� 2),� a� voltage� develops� across� the�
�bulk-capacitor� ESR� equal� to� I� C,PP� (ESR).� Thus,� once� the�
�output� capacitors� are� selected,� the� maximum� allowable�
�ripple� voltage,� V� PP(MAX)� ,� determines� the� lower� limit� on� the�
�inductance,� as� shown� in� Equation� 40.�
�IN� –� N� ?� V� OUT� ?� V� OUT�
�?� V� ?�
�L� ≥� (� ESR� )� ?� --------------------------------------------------------------------�
�Output� Filter� Design�
�The� output� inductors� and� the� output� capacitor� bank� together�
�form� a� low-pass� filter� responsible� for� smoothing� the� pulsating�
�?� ?�
�f� S� ?� V� IN� ?� V� P-P� (� MAX� )�
�(EQ.� 40)�
�voltage� at� the� phase� nodes.� The� output� filter� also� must�
�provide� the� transient� energy� until� the� regulator� can� respond.�
�Because� it� has� a� low� bandwidth� compared� to� the� switching�
�frequency,� the� output� filter� necessarily� limits� the� system�
�transient� response.� The� output� capacitor� must� supply� or� sink�
�load� current� while� the� current� in� the� output� inductors�
�increases� or� decreases� to� meet� the� demand.�
�In� high-speed� converters,� the� output� capacitor� bank� is�
�usually� the� most� costly� (and� often� the� largest)� part� of� the�
�circuit.� Output� filter� design� begins� with� minimizing� the� cost� of�
�this� part� of� the� circuit.� The� critical� load� parameters� in�
�choosing� the� output� capacitors� are� the� maximum� size� of� the�
�load� step,� Δ� I;� the� load-current� slew� rate,� di/dt;� and� the�
�maximum� allowable� output-voltage� deviation� under� transient�
�loading,� Δ� V� MAX� .� Capacitors� are� characterized� according� to�
�Since� the� capacitors� are� supplying� a� decreasing� portion� of�
�the� load� current� while� the� regulator� recovers� from� the�
�transient,� the� capacitor� voltage� becomes� slightly� depleted.�
�The� output� inductors� must� be� capable� of� assuming� the� entire�
�load� current� before� the� output� voltage� decreases� more� than�
�Δ� V� MAX� .� This� places� an� upper� limit� on� inductance.�
�Equation� 41� gives� the� upper� limit� on� L� for� the� cases� when� the�
�trailing� edge� of� the� current� transient� causes� a� greater� output-�
�voltage� deviation� than� the� leading� edge.� Equation� 42�
�addresses� the� leading� edge.� Normally,� the� trailing� edge� dictates�
�the� selection� of� L� because� duty� cycles� are� usually� much� less�
�than� 50%.� Nevertheless,� both� inequalities� should� be� evaluated,�
�and� L� should� be� selected� based� on� the� lower� of� the� two� results.�
�In� each� equation,� L� is� the� per-channel� inductance,� C� is� the� total�
�output� capacitance,� and� N� is� the� number� of� active� channels.�
�L� ≤� ---------------------------------� Δ� V� MAX� –� (� Δ� I� ?� (� ESR� )� )�
�L� ≤� -----------------------------� Δ� V� MAX� –� (� Δ� I� ?� (� ESR� )� )� ?� ?� V� IN� –� V� O� ?�
�(� Δ� I� )� 2�
�their� capacitance,� ESR,� and� ESL� (equivalent� series�
�inductance).�
�At� the� beginning� of� the� load� transient,� the� output� capacitors�
�supply� all� of� the� transient� current.� The� output� voltage� will�
�initially� deviate� by� an� amount� approximated� by� the� voltage�
�2� ?� N� ?� C� ?� V� O�
�(� Δ� I� )� 2�
�1.25� ?� N� ?� C�
�?� ?�
�(EQ.� 41)�
�(EQ.� 42)�
�drop� across� the� ESL.� As� the� load� current� increases,� the�
�voltage� drop� across� the� ESR� increases� linearly� until� the� load�
�current� reaches� its� final� value.� The� capacitors� selected� must�
�have� sufficiently� low� ESL� and� ESR� so� that� the� total� output�
�voltage� deviation� is� less� than� the� allowable� maximum.�
�Neglecting� the� contribution� of� inductor� current� and� regulator�
�28�
�Switching� Frequency�
�There� are� a� number� of� variables� to� consider� when� choosing�
�the� switching� frequency,� as� there� are� considerable� effects� on�
�the� upper-MOSFET� loss� calculation.� These� effects� are�
�outlined� in� “MOSFETs”� on� page� 25,� and� they� establish� the�
�upper� limit� for� the� switching� frequency.� The� lower� limit� is�
�established� by� the� requirement� for� fast� transient� response�
�FN6504.1�
�May� 28,� 2009�
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| ISL6336AIRZ-T | 功能描述:IC CTRLR PWM 6PHASE BUCK 48-QFN RoHS:是 类别:集成电路 (IC) >> PMIC - 稳压器 - 专用型 系列:- 标准包装:43 系列:- 应用:控制器,Intel VR11 输入电压:5 V ~ 12 V 输出数:1 输出电压:0.5 V ~ 1.6 V 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:48-VFQFN 裸露焊盘 供应商设备封装:48-QFN(7x7) 包装:管件 |
| ISL6336BCRZ | 功能描述:IC CTRLR PWM SYNC BUCK 48-QFN RoHS:是 类别:集成电路 (IC) >> PMIC - 稳压器 - 专用型 系列:- 产品培训模块:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 标准包装:2,000 系列:- 应用:电源,ICERA E400,E450 输入电压:4.1 V ~ 5.5 V 输出数:10 输出电压:可编程 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:42-WFBGA,WLCSP 供应商设备封装:42-WLP 包装:带卷 (TR) |
| ISL6336BCRZ-T | 功能描述:IC CTRLR PWM SYNC BUCK 48-QFN RoHS:是 类别:集成电路 (IC) >> PMIC - 稳压器 - 专用型 系列:- 标准包装:43 系列:- 应用:控制器,Intel VR11 输入电压:5 V ~ 12 V 输出数:1 输出电压:0.5 V ~ 1.6 V 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:48-VFQFN 裸露焊盘 供应商设备封装:48-QFN(7x7) 包装:管件 |
| ISL6336BIRZ | 功能描述:IC CTRLR PWM SYNC BUCK 48-QFN RoHS:是 类别:集成电路 (IC) >> PMIC - 稳压器 - 专用型 系列:- 产品培训模块:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 标准包装:2,000 系列:- 应用:电源,ICERA E400,E450 输入电压:4.1 V ~ 5.5 V 输出数:10 输出电压:可编程 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:42-WFBGA,WLCSP 供应商设备封装:42-WLP 包装:带卷 (TR) |
| ISL6336BIRZ-T | 功能描述:IC CTRLR PWM SYNC BUCK 48-QFN RoHS:是 类别:集成电路 (IC) >> PMIC - 稳压器 - 专用型 系列:- 标准包装:43 系列:- 应用:控制器,Intel VR11 输入电压:5 V ~ 12 V 输出数:1 输出电压:0.5 V ~ 1.6 V 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:48-VFQFN 裸露焊盘 供应商设备封装:48-QFN(7x7) 包装:管件 |
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