参数资料
| 型号: | ISL6260CCRZ-T |
| 厂商: | Intersil |
| 文件页数: | 25/28页 |
| 文件大小: | 0K |
| 描述: | IC REG PWM MULTI-PHASE 40-QFN |
| 标准包装: | 4,000 |
| 应用: | 转换器,Intel IMVP-6 |
| 输出数: | 1 |
| 输出电压: | 0.3 V ~ 1.5 V |
| 工作温度: | -10°C ~ 100°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 40-VFQFN 裸露焊盘 |
| 供应商设备封装: | 40-QFN(6x6) |
| 包装: | 带卷 (TR) |
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�ISL6260C�
�Rdrp� 2� _� new�
�=�
�84� mV�
�80� mV�
�(� Rdrp� 1� +� Rdrp� 2� )� ?� Rdrp� 1�
�(EQ.� 15)�
�(class-I)� capacitors� have� only� 5%� tolerance� and� a� very� good�
�thermal� characteristics.� But� those� caps� are� only� available� in�
�small� capacitance� values.� In� order� to� use� such� capacitors,�
�For� the� best� accuracy,� the� equivalent� resistance� on� the� DFB�
�and� VSUM� pins� should� be� identical� so� that� the� bias� current�
�of� the� droop� amplifier� does� not� cause� an� offset� voltage.� In�
�the� example� above,� the� resistance� on� the� DFB� pin� is� Rdrp1�
�in� parallel� with� Rdrop2,� that� is,� 1k� in� parallel� with� 8.21k� or�
�890� Ω� .� The� resistance� on� the� VSUM� pin� is� Rn� in� parallel� with�
�RS� EQV� or� 3.4k� in� parallel� with� 2.56k� or� 1460� Ω� .� The�
�mismatch� in� the� effective� resistances� is� 1460� -� 890� =� 570� Ω� .�
�To� reduce� the� mismatch,� multiply� both� Rdrp1� and� Rdrp2� by�
�the� appropriate� factor.� The� appropriate� factor� in� the� example�
�is� 1460/890� =� 1.64.�
�Dynamic� Mode� of� Operation� -� Dynamic� Droop�
�using� DCR� Sensing�
�Droop� is� very� important� for� load� transient� performance.� If� the�
�system� is� not� compensated� correctly,� the� output� voltage�
�could� sag� excessively� upon� load� application� and� potentially�
�create� a� system� failure.� The� output� voltage� could� also� take� a�
�long� period� of� time� to� settle� to� its� final� value.�
�The� L/DCR� time� constant� of� the� inductor� must� be� matched� to�
�the� Rn*Cn� time� constant� as� shown� in� Equation� 16:�
�the� resistors� and� thermistors� surrounding� the� droop� voltage�
�sensing� and� droop� amplifier� has� to� be� resized� up� to� 10x� to�
�reduce� the� capacitance� by� 10x.� But� attention� has� to� be� paid�
�in� balancing� the� impedance� of� droop� amplifier� in� this� case.�
�Dynamic� Mode� of� Operation� -� Compensation�
�Parameters�
�Considering� the� voltage� regulator� as� a� black� box� with� a�
�voltage� source� controlled� by� VID� and� a� series� impedance,� in�
�order� to� achieve� the� 2.1mV/A� load� line,� the� series�
�impedance� inside� the� black� box� needs� to� be� 2.1m� Ω� .� The�
�compensation� design� has� to� ensure� the� output� impedance� of�
�the� converter� be� lower� than� 2.1m� Ω� .� There� is� a� mathematical�
�calculation� file� available� to� the� user.� The� power� stage�
�parameters� such� as� L� and� Cs� are� needed� as� the� input� to�
�calculate� the� compensation� component� values.� Attention�
�has� be� paid� to� the� input� resistor� to� the� FB� pin.� Too� high� of� a�
�resistor� will� cause� an� error� to� the� output� voltage� regulation�
�because� of� bias� current� flowing� in� the� FB� pin.� It� is� better� to�
�keep� this� resistor� below� 3k� when� using� this� file.�
�Static� Mode� of� Operation� -� Current� Balance� using�
�L� ?� Rn� � RS� EQV� ?�
�?� Rn� +� RS� EQV� ?�
�-------------� =� ?� -----------------------------------� ?� � Cn�
�L�
�DCR�
�?� Rn� � RS� EQV� ?�
�?� Rn� +� RS� EQV� ?�
�DCR�
�Solving� for� Cn� we� now� have� Equation� 17:�
�-------------�
�Cn� =� -----------------------------------------�
�?� -----------------------------------� ?�
�(EQ.� 16)�
�(EQ.� 17)�
�DCR� or� Discrete� Resistor� Current� Sensing�
�Current� Balance� is� achieved� in� the� ISL6260C� through� the�
�matching� of� the� voltages� present� on� the� ISEN� pins.� The�
�ISL6260C� adjusts� the� duty� cycles� of� each� phase� to� maintain�
�equal� potentials� on� the� ISEN� pins.� RL� and� CL� around� each�
�inductor,� or� around� each� discrete� current� resistor,� are� used�
�to� create� a� rather� large� time� constant� such� that� the� ISEN�
�voltages� have� minimal� ripple� voltage� and� represent� the� DC�
�current� flowing� through� each� channel’s� inductor.� For�
�0.5� μ� H�
�0.0012�
�?� -------------------------------------------� ?�
�Note,� RO� was� neglected.� As� long� as� the� inductor� time�
�constant� matches� the� droop� circuit� RC� time� constants� as�
�given� above,� the� transient� performance� will� be� optimum.� The�
�selection� of� Cn� may� require� a� slight� adjustment� to� correct� for�
�layout� inconsistencies� and� component� tolerance.� For� the�
�example� of� L� =� 0.5μH,� Cn� is� calculated� in� Equation� 18.�
�------------------�
�Cn� =� -------------------------------------------------� =� 28.5nF� (EQ.� 18)�
�3.4k� Ω� ×� 2.56k� Ω�
�?� 3.4k� Ω� +� 2.56k� Ω� ?�
�The� value� of� this� capacitor� is� selected� to� be� 27nF.� As� the�
�inductors� tend� to� have� 20%� to� 30%� tolerances,� this� cap�
�generally� will� be� tuned� on� the� board� by� examining� the�
�transient� voltage.� If� the� output� voltage� transient� has� an� initial�
�dip,� lower� than� the� voltage� required� by� the� load� line,� and� is�
�slowly� increasing� back� to� the� steady� state,� the� cap� should� be�
�increased� and� vice� versa.� It� is� better� to� have� the� cap� value� a�
�little� bigger� to� cover� the� tolerance� of� the� inductor� to� prevent�
�the� output� voltage� from� going� lower� than� the� spec.� This� cap�
�needs� to� be� a� high� grade� cap� like� X7R� with� low� tolerance.�
�There� is� another� consideration� in� order� to� achieve� better�
�time� constant� match� mentioned� above.� The� NPO/COG�
�25�
�optimum� performance,� RL� is� chosen� to� be� 10k� Ω� and� CL� is�
�selected� to� be� 0.22μF.� When� discrete� resistor� sensing� is�
�used,� a� capacitor� of� 10nF� should� be� placed� in� parallel� with�
�RL� to� properly� compensate� the� current� balance� circuit.�
�ISL6260C� uses� RC� filter� to� sense� the� average� voltage� on�
�phase� node� and� forces� the� average� voltage� on� the� phase�
�node� to� be� equal� for� current� balance.� Even� though� the�
�ISL6260C� forces� the� ISEN� voltages� to� be� almost� equal,� the�
�inductor� currents� will� not� be� exactly� the� same.� Take� DCR�
�current� sensing� as� example,� two� errors� have� to� be� added� to�
�find� the� total� current� imbalance.� 1)� Mismatch� of� DCR:� If� the�
�DCR� has� a� 5%� tolerance,� then� the� resistors� could� mismatch�
�by� 10%� worst� case.� If� each� phase� is� carrying� 20A� then� the�
�phase� currents� mismatch� by� 20A*10%� =� 2A.� 2)� Mismatch� of�
�phase� voltages/offset� voltage� of� ISEN� pins.� The� phase�
�voltages� are� within� 2mV� of� each� other� by� current� balance�
�circuit.� The� error� current� that� results� is� given� by� 2mV/DCR.� If�
�DCR� =� 1m� Ω� then� the� error� is� 2A.�
�In� the� above� example,� the� two� errors� add� to� 4A.� For� a� two�
�phase� DC/DC,� the� currents� would� be� 22A� in� one� phase� and�
�18A� in� the� other� phase.� In� the� above� analysis,� the� current�
�FN9259.3�
�June� 21,� 2010�
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参数描述 |
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| ISL6260CIRZ | 功能描述:电流型 PWM 控制器 MULTI-PHS(3 PHS EXT DC/DC BUCK CONT RoHS:否 制造商:Texas Instruments 开关频率:27 KHz 上升时间: 下降时间: 工作电源电压:6 V to 15 V 工作电源电流:1.5 mA 输出端数量:1 最大工作温度:+ 105 C 安装风格:SMD/SMT 封装 / 箱体:TSSOP-14 |
| ISL6260CIRZ-T | 功能描述:电流型 PWM 控制器 MULTI-PHS(3 PHS EXT DC/DC BUCK CONT RoHS:否 制造商:Texas Instruments 开关频率:27 KHz 上升时间: 下降时间: 工作电源电压:6 V to 15 V 工作电源电流:1.5 mA 输出端数量:1 最大工作温度:+ 105 C 安装风格:SMD/SMT 封装 / 箱体:TSSOP-14 |
| ISL6260CRZ | 功能描述:直流/直流开关调节器 MULTI-PHS3 PHS EXT DC/DC BUCK CNTRLR RoHS:否 制造商:International Rectifier 最大输入电压:21 V 开关频率:1.5 MHz 输出电压:0.5 V to 0.86 V 输出电流:4 A 输出端数量: 最大工作温度: 安装风格:SMD/SMT 封装 / 箱体:PQFN 4 x 5 |
| ISL6260CRZR5242 | 制造商:Intersil Corporation 功能描述:53289C01 MASK ONLY WITH DOT ON BRAND - Rail/Tube |
| ISL6260CRZ-T | 功能描述:直流/直流开关调节器 MULTI-PHS3 PHS EXT BUCK CONT IMVP-6 4 RoHS:否 制造商:International Rectifier 最大输入电压:21 V 开关频率:1.5 MHz 输出电压:0.5 V to 0.86 V 输出电流:4 A 输出端数量: 最大工作温度: 安装风格:SMD/SMT 封装 / 箱体:PQFN 4 x 5 |
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