参数资料
| 型号: | ISL6315IRZ |
| 厂商: | Intersil |
| 文件页数: | 9/20页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM VM 24-QFN |
| 标准包装: | 75 |
| PWM 型: | 电压模式 |
| 输出数: | 1 |
| 频率 - 最大: | 255kHz |
| 占空比: | 67% |
| 电源电压: | 4.75 V ~ 5.25 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 24-VFQFN 裸露焊盘 |
| 包装: | 管件 |
��
�
�ISL6315�
�illustrated� in� the� ISL6315’s� block� diagram.� Just� prior� to� the�
�upper� drive� turning� the� MOSFET� on,� the� lower� MOSFET�
�drive� turns� the� freewheeling� element� off.� The� upper�
�MOSFET� is� kept� on� until� the� clock� signals� the� beginning� of�
�The� ISL6315� accommodates� three� different� DAC� ranges:�
�the� next� switching� cycle� and� the� PWM� pulse� is� terminated.�
�CURRENT� SENSING�
�ISL6315� senses� current� by� sampling� the� voltage� across� the�
�lower� MOSFET� during� its� conduction� interval.� MOSFET�
�r� DS(ON)� sensing� is� a� no-added-cost� method� to� sense� current�
�for� channel� current� balance� and� overcurrent� protection.�
�The� PHASE� pins� are� used� as� inputs� for� each� channel.�
�Internal� circuitry� samples� the� lower� MOSFETs’� r� DS(ON)�
�voltage,� once� each� cycle,� during� their� conduction� periods�
�and� time� multiplexes� the� sampled� voltages� across� the� ISEN�
�resistor.� The� current� that� is� thus� developed� through� the� ISEN�
�resistor� is� duplicated� and� used� for� channel� current� balancing�
�and� overcurrent� detection.�
�CHANNEL-CURRENT� BALANCE�
�Another� benefit� of� multiphase� operation� is� the� thermal�
�advantage� gained� by� distributing� the� dissipated� heat� over�
�multiple� devices� and� greater� area.� By� doing� this,� the�
�designer� avoids� the� complexity� of� driving� multiple� parallel�
�MOSFETs� and� the� expense� of� using� expensive� heat� sinks�
�and� exotic� magnetic� materials.�
�In� order� to� fully� realize� the� thermal� advantage,� it� is� important�
�that� each� channel� in� a� multiphase� converter� be� controlled� to�
�deliver� about� the� same� current� at� any� load� level.� Intersil�
�multiphase� controllers� ensure� current� balance� by� comparing�
�each� channel’s� current� to� the� average� current� delivered� by�
�all� channels� and� making� appropriate� adjustments� to� each�
�channel’s� pulse� width� based� on� the� error.� The� error� signal�
�modifies� the� pulse� width� to� correct� any� unbalance� and� force�
�the� error� toward� zero.�
�OVERCURRENT� PROTECTION�
�The� individual� channel� currents,� as� sensed� via� the� PHASE�
�pins� and� scaled� via� the� ISEN� resistor,� are� continuously�
�monitored� and� compared� with� an� internal� 95� μ� A� reference�
�current.� If� both� channels’� currents� exceed,� at� any� time,� the�
�reference� current,� the� overcurrent� comparator� triggers� an�
�overcurrent� event.� Similarly,� an� OC� event� is� also� triggered� if�
�either� channel’s� current� exceeds� the� 95� μ� A� reference� for� 7�
�consecutive� switching� cycles.�
�As� a� result� of� an� OC� event,� output� drives� on� both� channels�
�turn� off� both� upper� and� lower� MOSFETs.� The� system� then�
�waits� in� this� state� for� a� period� of� 4096� switching� clock� cycles.�
�The� wait� period� is� followed� by� a� soft-start� attempt� .� If� the� soft-�
�start� attempt� is� successful,� operation� continues� as� normal.�
�Should� the� soft-start� attempt� fail,� the� ISL6315� repeats� the�
�2048-cycle� wait� period� and� follows� with� another� soft-start�
�attempt.� This� hiccup� mode� of� operation� continues� indefinitely�
�(as� depicted� in� Figure� 4)� for� as� long� as� the� controller� is�
�enabled� or� until� the� overcurrent� condition� is� removed.�
�9�
�OUTPUT� CURRENT�
�OUTPUT� VOLTAGE�
�FIGURE� 4.� OVERCURRENT� BEHAVIOR� IN� HICCUP� MODE�
�OFFSET� VOLTAGE� PROGRAMMING�
�The� OFS� pin� allows� a� user� to� program� a� small� positive� or�
�negative� offset� into� the� output� voltage� setting� normally�
�determined� by� the� 5-bit� DAC.� The� offset� input� was�
�designed� for� small� offset� magnitudes,� generally� no� larger�
�than� +/-100mV.� As� the� offset� is� created� by� injecting� a�
�current� into� the� FB� pin,� its� magnitude� is� independent� of� the�
�DAC� setting� and� the� offset� of� the� output� voltage� is� not�
�detected� by� the� internal� monitoring� blocks.� In� effect,� offset�
�shifts� the� response� level� for� OVP� protection:� for� example,� a�
�-50mV� offset� will� cause� the� operating� OVP� threshold� to� be�
�reached� when� the� output� voltage� reaches� 150mV� above�
�the� DAC-set� output� voltage,� instead� of� 200mV� as� it� would�
�be� the� case� with� no� offset� programmed.� The� equation�
�presented� in� the� OFS� pin� description� holds� true� even� if� a�
�resistor� divider� is� used� at� the� FB� to� raise� the� output� voltage�
�to� a� level� above� that� set� by� the� DAC.�
�OUTPUT� VOLTAGE� SETTING�
�The� ISL6315� uses� a� digital� to� analog� converter� (DAC)� to� gen-�
�erate� a� reference� voltage� based� on� the� logic� signals� at� the� VID�
�pins.� The� DAC� decodes� the� 5� or� 6-bit� logic� signals� into� one� of�
�the� discrete� voltages� shown� in� Tables� 1� through� 3.� Each� VID�
�pin� is� pulled� up� to� an� internal� 1.2V� voltage� by� weak� current�
�sources� (about� 45� μ� A� current,� decreasing� to� 0� as� the� voltage� at�
�the� VID� pins� varies� from� 0� to� the� internal� 1.2V� pull-up� voltage).�
�External� pull-up� resistors� or� active-high� output� stages� can� aug-�
�ment� the� pull-up� current� sources,� up� to� a� voltage� of� 5V.�
�.�
�Intel� VRM9.0,� AMD� Hammer,� or� Intel� VRM10.0� -� see�
��connections� for� desired� DAC� range� compatibility.�
�FN9222.1�
�July� 18,� 2007�
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