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| 型号: | LTC1703IG#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 10/36页 |
| 文件大小: | 0K |
| 描述: | IC REG SW DUAL SYNC VID 28SSOP |
| 标准包装: | 2,000 |
| 应用: | 控制器,移动式 Intel Pentium? III |
| 输入电压: | 3 V ~ 7 V |
| 输出数: | 2 |
| 输出电压: | 0.9 V ~ 2 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 28-SSOP |
| 包装: | 带卷 (TR) |
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�LTC1703�
�APPLICATIO� S� I� FOR� ATIO�
�of� the� equation—with� a� typical� value� on� the� order� of� 1� μ� H,�
�the� inductor� allows� very� fast� di/dt� slew� rates.� The� result� is�
�superior� transient� response� compared� with� conventional�
�solutions.�
�High� Efficiency�
�The� LTC1703� uses� a� synchronous� step-down� (buck)�
�architecture,� with� two� external� N-channel� MOSFETs� per�
�output.� A� floating� topside� driver� and� a� simple� external�
�charge� pump� provide� full� gate� drive� to� the� upper� MOSFET.�
�The� voltage� mode� feedback� loop� and� MOSFET� V� DS� current�
�limit� sensing� remove� the� need� for� an� external� current�
�sense� resistor,� eliminating� an� external� component� and� a�
�source� of� power� loss� in� the� high� current� path.� Properly�
�designed� circuits� using� low� gate� charge� MOSFETs� are�
�capable� of� efficiencies� exceeding� 90%� over� a� wide� range�
�of� output� voltages.�
�VID� Programming�
�The� LTC1703� includes� an� onboard� feedback� network� that�
�programs� the� output� voltage� at� side� 1� in� accordance� with�
�the� Intel� Mobile� VID� specification� (Table� 1).� The� network�
�includes� a� 10k� resistor� (R11)� connected� from� SENSE� to�
�FB1,� and� a� variable� value� resistor� (R� B1� )� from� FB1� to� SGND,�
�with� the� value� set� by� the� digital� code� present� at� the� VID0:4�
�pins.� SENSE� should� be� connected� to� V� OUT1� to� allow� the�
�network� to� monitor� the� output� voltage.� No� additional�
�feedback� components� are� required� to� set� the� output� volt-�
�age� at� controller� 1,� although� loop� compensation� compo-�
�nents� are� still� required.� Each� VIDn� pin� includes� an� internal�
�40k� pull-up� resistor,� allowing� it� to� float� high� if� left� uncon-�
�nected.� The� pull-up� resistors� are� connected� to� V� CC� through�
�diodes� (see� Block� Diagram),� allowing� the� VIDn� pins� to� be�
�pulled� above� V� CC� without� damage.�
�Note� that� codes� 01111� and� 11111,� defined� by� Intel� to�
�indicate� “no� CPU� present,”� do� generate� output� voltages� at�
�V� OUT1� (1.25V� and� 0.9V,� respectively).� Note� also� that�
�chip� and� their� corresponding� external� components� act�
�independently� of� each� other� with� the� exception� of� the�
�common� input� bypass� capacitor,� the� VID� circuitry� at� side�
�1,� and� the� FCB� and� FAULT� pins,� which� affect� both� chan-�
�nels.� In� the� following� discussions,� when� a� pin� is� referred�
�to� without� mentioning� which� side� is� involved,� that� discus-�
�sion� applies� equally� to� both� sides.�
�Switching� Architecture�
�Each� half� of� the� LTC1703� is� designed� to� operate� as� a�
�synchronous� buck� converter� (Figure� 1).� Each� channel�
�includes� two� high� power� MOSFET� gate� drivers� to� control�
�external� N-channel� MOSFETs� QT� and� QB.� These� drivers�
�have� 0.5� ?� output� impedances� and� can� carry� well� over� an�
�amp� of� continuous� current� with� peak� currents� up� to� 5A� to�
�slew� large� MOSFET� gates� quickly.� The� external� MOSFETs�
�are� connected� with� the� drain� of� QT� attached� to� the� input�
�supply� and� the� source� of� QT� at� the� switching� node� SW.� QB�
�is� the� synchronous� rectifier� with� its� drain� at� SW� and� its�
�source� at� PGND.� SW� is� connected� to� one� end� of� the�
�inductor,� with� the� other� end� connected� to� V� OUT� .� The� output�
�capacitor� is� connected� from� V� OUT� to� PGND.�
�When� a� switching� cycle� begins,� QB� is� turned� off� and� QT� is�
�turned� on.� SW� rises� almost� immediately� to� V� IN� and� the�
�inductor� current� begins� to� increase.� When� the� PWM� pulse�
�finishes,� QT� turns� off� and� one� nonoverlap� interval� later,� QB�
�turns� on.� Now� SW� drops� to� PGND� and� the� inductor� current�
�decreases.� The� cycle� repeats� with� the� next� tick� of� the�
�master� clock.� The� percentage� of� time� spent� in� each� mode�
�is� controlled� by� the� duty� cycle� of� the� PWM� signal,� which� in�
�turn� is� controlled� by� the� feedback� amplifier.� The� master�
�clock� runs� at� a� 550kHz� rate� and� turns� QT� once� every� 1.8� μ� s.�
�In� a� typical� application� with� a� 5V� input� and� a� 1.5V� output,�
�the� duty� cycle� will� be� set� at� 1.5/5� � 100%� or� 30%� by� the�
�feedback� loop.� This� will� give� roughly� a� 540ns� on-time� for�
�QT� and� a� 1.26� μ� s� on-time� for� QB.�
�V� IN�
�controller� 2� on� the� LTC1703� is� not� connected� to� the� VID�
�circuitry,� and� works� independently� from� controller� 1.�
�TG�
�QT�
�L� EXT�
�+�
�C� IN�
�PGND�
�ARCHITECTURE� DETAILS�
�LTC1703� SW�
�BG�
�QB�
�+�
�C� OUT�
�V� OUT�
�The� LTC1703� dual� switching� regulator� controller� includes�
�two� independent� regulator� channels.� The� two� sides� of� the�
�1703� F01�
�Figure� 1.� Synchronous� Buck� Architecture�
�1703fa�
�10�
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