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参数资料
| 型号: | ISL6322GCRZ |
| 厂商: | Intersil |
| 文件页数: | 26/39页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR PWM BUCK 48-QFN |
| 标准包装: | 43 |
| 应用: | 控制器,Intel VR10、VR11、AMD CPU |
| 输入电压: | 5 V ~ 12 V |
| 输出数: | 1 |
| 输出电压: | 0.38 V ~ 1.99 V |
| 工作温度: | 0°C ~ 70°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 |
| 产品目录页面: | 1248 (CN2011-ZH PDF) |
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�ISL6322G�
�This� is� accomplished� by� continuously� comparing� the� sensed�
�currents� of� each� channel� with� a� constant� 170μA� OCL�
�reference� current� as� shown� in� Figure� 14.� If� a� channel’s�
�individual� sensed� current� exceeds� this� OCL� limit,� the� UGATE�
�signal� of� that� channel� is� immediately� forced� low,� and� the�
�LGATE� signal� is� forced� high.� This� turns� off� the� upper�
�MOSFET(s),� turns� on� the� lower� MOSFET(s),� and� stops� the�
�rise� of� current� in� that� channel,� forcing� the� current� in� the�
�channel� to� decrease.� That� channel’s� UGATE� signal� will� not�
�be� able� to� return� high� until� the� sensed� channel-current� falls�
�back� below� the� 170μA� reference.�
�I� 2� C� Bus� Interface�
�The� ISL6322G� includes� an� I� 2� C� bus� interface� which� allows�
�for� user� programmability� of� five� of� the� controller� ’s� operating�
�the� POR� rising� threshold.� The� I� 2� C� will� continue� to� remain�
�active� until� the� voltage� on� the� VCC� pin� falls� back� below� the�
�falling� POR� threshold� level.�
�Data� Validity�
�The� data� on� the� SDA� line� must� be� stable� during� the� HIGH�
�period� of� the� SCL,� unless� generating� a� START� or� STOP�
�condition.� The� HIGH� or� LOW� state� of� the� data� line� can� only�
�change� when� the� clock� signal� on� the� SCL� line� is� LOW.� Refer�
�to� Figure� 16.�
�SDA�
�SCL�
�parameters.� The� operating� parameters� that� can� be� adjusted�
�DATA� LINE�
�CHANGE�
�through� the� I� 2� C� are:�
�1.� Number� of� Phases� Firing:� Selects� whether� the�
�controller� should� run� in� single� phase� or� 2-phase� mode.�
�The� EN_PH2� pin� must� be� tied� low� for� the� number� of�
�phases� firing� to� be� controlled� by� the� I� 2� C� bus� interface.�
�2.� Voltage� Margining� Offset� :� The� output� voltage� can� be�
�positively� offset� up� to� +787.5mV� in� 12.5mV� increments.�
�3.� Adaptive� Deadtime� Control� :� Selects� between� LGATE�
�Detect� and� PHASE� Detect� deadtime� control� schemes� as�
���4.� Overvoltage� Trip� Level� :� Selects� the� overvoltage�
�protection� trip� threshold� as� described� in� the� “Overvoltage�
��5.� Switching� Frequency:� The� switching� frequency� can� be�
�STABLE� OF� DATA�
�DATA� VALID� ALLOWED�
�FIGURE� 16.� DATA� VALIDITY�
�START� and� STOP� Conditions�
�As� shown� in� Figure� 17,� a� START� (S)� condition� is� a� HIGH� to�
�LOW� transition� of� the� SDA� line� while� SCL� is� HIGH.�
�The� STOP� (P)� condition� is� a� LOW� to� HIGH� transition� on� the�
�SDA� line� while� SCL� is� HIGH.� A� STOP� condition� must� be� sent�
�before� each� START� condition.�
�SDA�
�SCL�
�increased� by� a� fixed� +15%� or� +30%,� or� can� be� decreased�
�by� -15%� or� -30%.�
�S�
�START�
�P�
�STOP�
�To� adjust� these� five� parameters,� data� transmission� from� the�
�main� microprocessor� to� the� ISL6322G� and� vice� versa� must�
�take� place� through� the� two� wire� I� 2� C� bus� interface.� The� two�
�wires� of� the� I� 2� C� bus� consist� of� the� SDA� line,� over� which� all� data�
�is� sent,� and� the� SCL� line,� which� is� a� clock� signal� used� to�
�synchronize� sending/receiving� of� the� data.�
�Both� SDA� and� SCL� are� bidirectional� lines,� externally� connected�
�to� a� positive� supply� voltage� via� a� pull-up� resistor.� Pull-up�
�resistor� values� should� be� chosen� to� limit� the� input� current� to�
�less� then� 3mA� .� When� the� bus� is� free,� both� lines� are� HIGH.� The�
�output� stages� of� ISL6322G� have� an� open� drain/open� collector�
�in� order� to� perform� the� wired-AND� function.� Data� on� the� I� 2� C� bus�
�can� be� transferred� up� to� 100kbps� in� the� standard-mode� or� up� to�
�400Kbps� in� the� fast-mode.� The� level� of� logic� “0”� and� logic� “1”� is�
�dependent� on� associated� value� of� V� DD� as� per� the� “Electrical�
�Specifications”� table� on� page� 6.� One� clock� pulse� is� generated�
�for� each� data� bit� transferred.� The� ISL6322G� is� a� “SLAVE� only”�
�device,� so� the� SCL� line� must� always� be� controlled� by� an�
�external� master.�
�It� is� important� to� note� that� the� I� 2� C� interface� of� the� ISL6322G�
�only� works� once� the� voltage� on� the� VCC� pin� has� risen� above�
�26�
�CONDITION� CONDITION�
�FIGURE� 17.� START� AND� STOP� WAVEFORMS�
�Byte� Format�
�Every� byte� put� on� the� SDA� line� must� be� eight� bits� long.� The�
�number� of� bytes� that� can� be� transmitted� per� transfer� is�
�unrestricted.� Each� byte� has� to� be� followed� by� an�
�acknowledge� bit.� Data� is� transferred� with� the� most� significant�
�bit� first� (MSB)� and� the� least� significant� bit� last� (LSB).�
�Acknowledge�
�Each� address� and� data� transmission� uses� 9-clock� pulses.�
�The� ninth� pulse� is� the� acknowledge� bit� (A).� After� the� start�
�condition,� the� master� sends� 7-slave� address� bits� and� a� R/W�
�bit� during� the� next� 8-clock� pulses.� During� the� ninth� clock�
�pulse,� the� device� that� recognizes� its� own� address� holds� the�
�data� line� low� to� acknowledge.� The� acknowledge� bit� is� also�
�used� by� both� the� master� and� the� slave� to� acknowledge�
�receipt� of� register� addresses� and� data� as� described� as�
�follows.�
�FN6715.0�
�May� 22,� 2008�
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