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| 型号: | IR3093MTRPBF |
| 厂商: | International Rectifier |
| 文件页数: | 22/39页 |
| 文件大小: | 0K |
| 描述: | IC CTLR 3PHASE VR10 48-MLQP |
| 标准包装: | 3,000 |
| 应用: | VID 电压编程器 |
| 电源电压: | 7.4 V ~ 21 V |
| 电流 - 电源: | 38mA |
| 工作温度: | 0°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 48-MLPQ |
| 供应商设备封装: | 48-MLPQ(7x7) |
| 包装: | 带卷 (TR) |
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�IR3093PbF�
�A� delay� is� included� if� an� over-current� condition� occurs� after� a� successful� soft-start� sequence.� This� is� required� since�
�over-current� conditions� can� occur� as� part� of� normal� operation� due� to� load� transients� or� VID� transitions.� If� an� over-�
�current� fault� occurs� during� normal� operation,� the� Over� Current� Comparator� will� initiate� the� discharge� of� the�
�capacitor� at� SS/DEL� but� will� not� set� the� fault� latch� immediately.� If� the� over-current� condition� persists� long� enough�
�for� the� SS/DEL� capacitor� to� discharge� below� the� 250mV� offset� of� the� delay� comparator,� the� Fault� latch� will� be� set�
�pulling� the� Error� Amplifier’s� output� low� inhibiting� switching� in� the� phase� ICs� and� de-asserting� the� PWRGD� signal.�
�See� Soft� Start,� Over-Current� Fault� Delay,� and� Hiccup� Mode.� The� hiccup� mode� duty� cycle� of� over� current� protection�
�is� determined� by� the� ratio� of� the� charge� to� discharge� current� and� is� fixed� at� 9.1%� for� the� ratio� of� 10� to� 1.�
�The� inductor� DC� resistance� R� L� is� utilized� to� sense� the� inductor� current.� The� current� limit� threshold� is� set� by� a�
�resistor� R� OCSET� connected� between� the� OCSET� and� VDAC� pins,� as� shown� in� Fig1.� I� LIMIT� is� the� required� over�
�current� limit.� I� OCSET,� the� bias� current� of� OCSET� pin,� is� set� by� R� ROSC� and� is� determined� by� the� curve� in� this� data�
�sheet.� OCP� need� to� satisfy� the� high� temperature� condition.� R� L_MAX� and� R� L_ROOM� are� the� inductor� DCR� at�
�maximum� temperature� T� L_MAX� and� room� temperature� T_� ROOM� respectively,� the� maximum� inductor� DCR� can� be�
�calculated� from� Equation� (8)�
�R� L� _� MAX� R� L� _� ROOM� � [� 1� � 3850� *� 10� 6� � (� T� L� _� MAX� � T� ROOM� )]� (8)�
�The� current� sense� amplifier� gain� of� IR3093� decreases� with� temperature� at� the� rate� of1400� PPM,� which�
�compensates� part� of� the� inductor� DCR� increase.� The� minimum� current� sense� amplifier� gain� at� the� maximum� IC�
�temperature� T� IC_MAX� is� calculated� from� Equation� (9).�
�G� CS� _� MIN�
�G� CS� _� ROOM� � [� 1� � 1400� *� 10� 6� � (� T� IC� _� MAX� � T� ROOM� )]�
�(9)�
� �
�)� � R� L� _� MAX� ]� � G� CS� _� MIN� /� I� OCSET�
�I� LIMIT� '� I�
�R� OCSET� [(� (10)�
�'� I�
�L� � Vin� � fsw�
�R� OCSET� can� be� calculated� by� the� following� equation� (10),� where� ¨� I� is� the� ripple� current� in� each� output� inductor.�
�3� 2�
�Vo� � (� Vin� � Vo� )� (11)�
�Adaptive� Voltage� Positioning�
�Adaptive� voltage� positioning� is� needed� to� reduce� output� voltage� deviations� during� load� transients� and� power�
�dissipation� of� the� load� when� it� is� drawing� maximum� current.� The� circuitry� related� to� voltage� positioning� is� shown� in�
�Figure� 8.� Resistor� R� FB� is� connected� between� the� Error� Amplifier’s� inverting� input� pin� FB� and� the� converter’s� output�
�voltage.� An� internal� current� source� whose� value� is� programmed� by� the� same� external� resistor� that� programs� the�
�oscillator� frequency,� R� ROSC� ,� pumps� current� out� of� the� FB� pin.� The� FB� bias� current� develops� a� positioning� voltage�
�drop� across� R� FB� which� forces� the� converter’s� output� voltage� lower� to� V(VDAC)-I(FB)*� R� FB� to� maintain� a� balance� at�
�the� Error� Amplifier� inputs.� R� FB� is� selected� to� program� the� desired� amount� of� fixed� offset� voltage� below� the� DAC�
�voltage.�
�The� voltage� at� the� VDRP� pin� is� an� average� of� three� phase� Current� Sense� Amplifiers� and� represents� the� sum� of� the�
�VDAC� voltage� and� the� average� inductor� current� of� all� the� phases.� The� VDRP� pin� is� connected� to� the� FB� pin�
�through� the� resistor.� The� Error� Amplifier� forces� the� voltage� on� the� FB� pin� to� equal� VDAC� through� the� power� supply�
�loop� therefore� the� current� through� RDRP� is� equal� to� (VDRP-VDAC)� /� R� DRP.� As� the� load� current� increases,� the�
�VDRP� voltage� increases� accordingly� which� results� in� an� increase� R� FB� current,� further� positioning� the� output�
�regulated� voltage� lower� thus� making� the� output� voltage� reduction� proportional� to� an� increase� in� load� current.� The�
�droop� impedance� or� output� impedance� of� the� converter� can� thus� be� programmed� by� the� resistor� R� DRP.� The� offset�
�and� slope� of� the� converter� output� impedance� are� independent� of� the� VDAC� voltage.�
�Page� 22� of� 39�
�09/08/05�
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