参数资料
| 型号: | ISL6353IRTZ-T |
| 厂商: | Intersil |
| 文件页数: | 22/30页 |
| 文件大小: | 0K |
| 描述: | IC CONTROLLER DDR VR12 40TQFN |
| 标准包装: | 6,000 |
| 应用: | 控制器,DDR,Intel VR12 |
| 输入电压: | 4.5 V ~ 25 V |
| 输出数: | 1 |
| 输出电压: | 0.25 V ~ 1.52 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 40-WFQFN 裸露焊盘 |
| 供应商设备封装: | 40-TQFN-EP(5x5) |
| 包装: | 带卷 (TR) |
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�ISL6353�
�?� F� SW� –� 0.1445� ?� F� SW� +� 52055�
�and� the� other� two� phases� inductor� output� pads.� Equations� 29�
�through� 31� give� the� ISEN� pin� voltages:�
�R� fset� (� Ω� )� =� 1.293� ?� 10�
�–� 7�
�2�
�(EQ.� 38)�
�V� ISEN1� =� V� 1p� +� V� 2n� +� V� 3n�
�V� ISEN2� =� V� 1n� +� V� 2p� +� V� 3n�
�V� ISEN3� =� V� 1n� +� V� 2n� +� V� 3p�
�The� ISL6353� will� make� V� ISEN1� =� V� ISEN2� =� V� ISEN3� as� in�
�Equations� 32� and� 33:�
�V� 1p� +� V� 2n� +� V� 3n� =� V� 1n� +� V� 2p� +� V� 3n�
�V� 1n� +� V� 2p� +� V� 3n� =� V� 1n� +� V� 2n� +� V� 3p�
�(EQ.� 29)�
�(EQ.� 30)�
�(EQ.� 31)�
�(EQ.� 32)�
�(EQ.� 33)�
�Phase� Count� Configurations�
�The� ISL6353� can� be� configured� for� 1,� 2� or� 3-phase� operation.�
�For� 2-phase� configuration,� tie� the� PWM3� pin� to� VDD.� Phase� 1� and�
�Phase� 2� PWM� pulses� are� 180°� out-of-phase.� Leave� the� ISEN3� pin�
�open� for� 2-phase� configuration.�
�For� 1-phase� configuration,� tie� the� PWM3� and� ISEN2� pins� to� VDD.�
�In� this� configuration,� only� Phase� 1� is� active.� The� ISEN3,� ISEN2,�
�ISEN1,� and� FB2� pins� are� not� used� because� there� is� no� need� for�
�current� balancing� or� the� FB2� function.�
�Modes� of� Operation�
�TABLE� 3.� ISL6353� MODES� OF� OPERATION�
�Rewriting� Equation� 32� gives� Equation� 34:�
�CONFIGURATION�
�PS#�
�OPERATIONAL� MODE�
�V� 1p� –� V� 1n� =� V� 2p� –� V� 2n�
�and� rewriting� Equation� 33� gives� Equation� 35:�
�V� 2p� –� V� 2n� =� V� 3p� –� V� 3n�
�Combining� Equations� 34� and� 35� gives� Equation� 36:�
�V� 1p� –� V� 1n� =� V� 2p� –� V� 2n� =� V� 3p� –� V� 3n�
�Therefore:�
�R� dcr1� � I� L1� =� R� dcr2� � I� L2� =� R� dcr3� � I� L3�
�(EQ.� 34)�
�(EQ.� 35)�
�(EQ.� 36)�
�(EQ.� 37)�
�3-phase� Configuration�
�2-phase� Configuration�
�PS0�
�PS1�
�PS2�
�PS3�
�PS0�
�PS1�
�PS2�
�PS3�
�3-phase� CCM�
�2-phase� CCM� or�
�1-phase� CCM�
�1-phase� DE�
�1-phase� DE�
�2-phase� CCM�
�1-phase� CCM�
�1-phase� DE�
�1-phase� DE�
�Current� balancing� (I� L1� =� I� L2� =� I� L3� )� is� achieved� when�
�R� dcr1� =� R� dcr2� =� R� dcr3� .� R� pcb1� ,� R� pcb2� and� R� pcb3� will� not� have� any�
�effect.�
�Since� the� slave� ripple� capacitor� voltages� mimic� the� inductor�
�currents,� the� R� 3� ?� modulator� can� naturally� achieve� excellent� current�
�1-phase� Configuration�
�PS0�
�PS1�
�PS2�
�PS3�
�1-phase� CCM�
�1-phase� CCM�
�1-phase� DE�
�1-phase� DE�
�balancing� during� steady-state� and� dynamic� operation.� The� inductor�
�currents� follow� the� load� current� dynamic� change,� with� the� output�
�capacitors� supplying� the� difference.� The� inductor� currents� can�
�track� the� load� current� well� at� low� rep� rate,� but� cannot� keep� up�
�when� the� rep� rate� gets� into� the� hundred-kHz� range,� where� it� is� out�
�of� the� control� loop� bandwidth.� The� controller� achieves� excellent�
�current� balancing� in� all� cases.�
�CCM� Switching� Frequency�
�The� resistor� connected� between� the� COMP� pin� and� the� VW� pin�
�sets� the� VW� windows� size,� therefore� setting� the� steady� state�
�PWM� switching� frequency.� When� the� ISL6353� is� in� continuous�
�conduction� mode� (CCM),� the� switching� frequency� is� not�
�absolutely� constant� due� to� the� nature� of� the� R� 3� modulator.� As�
�explained� in� the� “Multiphase� R3� Modulator”� on� page� 11,� the�
�effective� switching� frequency� will� increase� during� load� step-up�
�and� will� decrease� during� load� step-down� to� achieve� fast� transient�
�response.� On� the� other� hand,� the� switching� frequency� is� relatively�
�constant� at� steady� state.� Equation� 38� gives� an� estimate� of� the�
�frequency-setting� resistor� R� fset� value.� 20k� Ω� R� fset� gives�
�approximately� 300kHz� switching� frequency.� Lower� resistance�
�yields� higher� switching� frequency.�
�22�
�Table� 3� shows� the� modes� of� operation� for� the� various� power� states�
�programmed� using� the� SetPS� command� through� the� SVID� bus� or�
�by� changing� the� state� of� the� PSI� pin.� Table� 3� is� used� in� conjunction�
�with� the� status� of� the� PROG2� pin.� Refer� to� Table� 7� for� the� PROG2�
�programming� options.�
�Dynamic� Operation�
�The� controller� responds� to� VID� changes� by� slewing� to� the� new�
�voltage� at� a� slew� rate� indicated� in� the� SetVID� command.� There�
�are� three� SetVID� slew� rates� SetVID_fast,� SetVID_slew� and�
�SetVID_decay.�
�The� SetVID_fast� command� prompts� the� controller� to� enter� CCM�
�and� to� actively� drive� the� output� voltage� to� the� new� VID� value� at� a�
�minimum� 10mV/μs� slew� rate.�
�The� SetVID_slow� command� prompts� the� controller� to� enter� CCM�
�and� to� actively� drive� the� output� voltage� to� the� new� VID� value� at� a�
�minimum� 2.5mV/μs� slew� rate.�
�The� SetVID_decay� command� prompts� the� controller� to� enter� DE�
�mode.� The� output� voltage� will� decay� down� to� the� new� VID� value� at�
�a� slew� rate� determined� by� the� load.� If� the� voltage� decay� rate� is�
�September� 15,� 2011�
�FN6897.0�
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