参数资料
| 型号: | LTC1736IG#TR |
| 厂商: | Linear Technology |
| 文件页数: | 15/28页 |
| 文件大小: | 0K |
| 描述: | IC REG SW SYNC STEPDWN HE 24SSOP |
| 标准包装: | 1,800 |
| 应用: | 转换器,Intel Pentium? II,III |
| 输入电压: | 3.5 V ~ 36 V |
| 输出数: | 1 |
| 输出电压: | 0.93 V ~ 2 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 24-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 24-SSOP |
| 包装: | 带卷 (TR) |
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�LTC1736�
�APPLICATIO� S� I� FOR� ATIO�
�regulator� shuts� off,� the� switch� closes� and� INTV� CC� power� is�
�supplied� via� EXTV� CC� until� EXTV� CC� drops� below� 4.5V.� This�
�allows� the� MOSFET� gate� drive� and� control� power� to� be�
�derived� from� the� output� or� other� external� source� during�
�normal� operation.� When� the� output� is� out� of� regulation�
�(start-up,� short� circuit)� power� is� supplied� from� the� internal�
�regulator.� Do� not� apply� greater� than� 7V� to� the� EXTV� CC� pin�
�and� ensure� that� EXTV� CC� <� V� IN� .�
�Significant� efficiency� gains� can� be� realized� by� powering�
�INTV� CC� from� the� output,� since� the� V� IN� current� resulting�
�from� the� driver� and� control� currents� will� be� scaled� by� a�
�factor� of� (Duty� Cycle)/(Efficiency).� For� 5V� regulators� this�
�simply� means� connecting� the� EXTV� CC� pin� directly� to� V� OUT� .�
�However,� for� VID� programmed� regulators� and� other� lower�
�voltage� regulators,� additional� circuitry� is� required� to� de-�
�rive� INTV� CC� power� from� the� output.�
�The� following� list� summarizes� the� three� possible� connec-�
�tions� for� EXTV� CC:�
�1.� EXTV� CC� Left� Open� (or� Grounded).� This� will� cause� INTV� CC�
�to� be� powered� from� the� internal� 5.2V� regulator� resulting�
�in� a� low� current� efficiency� penalty� of� up� to� 10%� at� high�
�input� voltages.�
�2.� EXTV� CC� Connected� to� an� External� Supply� (this� option� is�
�the� most� likely� used).� If� an� external� supply� is� available�
�in� the� 5V� to� 7V� range,� such� as� notebook� main� 5V�
�system� power,� it� may� be� used� to� power� EXTV� CC� provid-�
�ing� it� is� compatible� with� the� MOSFET� gate� drive�
�requirements.� This� is� the� typical� case� as� the� 5V� power�
�is� almost� always� present� and� is� derived� by� another� high�
�efficiency� regulator.�
�3.� EXTV� CC� Connected� to� an� Output-Derived� Boost� Net-�
�work.� For� this� low� output� voltage� regulator,� efficiency�
�gains� can� still� be� realized� by� connecting� EXTV� CC� to� an�
�output-derived� voltage� that� has� been� boosted� to� greater�
�than� 4.7V.� This� can� be� done� with� either� the� inductive�
�boost� winding� or� the� capacitive� charge� pump� circuits.�
�Refer� to� the� LTC1735� data� sheet� for� details.� The� charge�
�pump� has� the� advantage� of� simple� magnetics.�
�Output� Voltage� Programming�
�The� output� voltage� is� digitally� set� to� levels� between� 0.925V�
�and� 2.00V� using� the� voltage� identification� (VID)� inputs�
�VID0� to� VID4.� The� internal� 5-bit� DAC� configured� as� a�
�precision� resistive� voltage� divider� sets� the� output� voltage�
�in� 50mV� or� 25mV� increments� according� to� Table� 1.�
�The� VID� codes� (00000-11110)� are� engineered� to� be� com-�
�patible� with� Intel� Mobile� Pentium� II� and� Pentium� III� pro-�
�cessor� specifications� for� output� voltages� from� 0.925V� to�
�2.00V.�
�The� LSB� (VID0)� represents� 50mV� increments� in� the� upper�
�voltage� range� (1.30V� to� 2.00V)� and� 25mV� increments� in�
�the� lower� voltage� range� (0.925V� to� 1.275V).� The� MSB� is�
�VID4.� When� all� bits� are� low,� or� grounded,� the� output�
�voltage� is� 2.00V.�
�Between� the� V� FB� pin� and� ground� is� a� variable� resistor,� R1,�
�whose� value� is� controlled� by� the� five� input� pins� (VID0� to�
�VID4).� Another� resistor,� R2,� between� the� V� OSENSE� and� the�
�V� FB� pins� completes� the� resistive� divider.� The� output� volt-�
�age� is� thus� set� by� the� ratio� of� (R1� +� R2)� to� R1.�
�The� LTC1736� has� remote� sense� capability.� The� top� of� the�
�internal� resistive� divider� is� connected� to� V� OSENSE� ,� and� it� is�
�referenced� to� the� SGND� pin.� This� allows� a� kelvin� connec-�
�tion� for� remotely� sensing� the� output� voltage� directly� across�
�the� load,� eliminating� any� PC� board� trace� resistance� errors.�
�Each� VID� digital� input� is� pulled� up� by� a� 40k� resistor� in�
�series� with� a� diode� from� VIDV� CC� .� Therefore,� it� must� be�
�grounded� to� get� a� digital� low� input,� and� can� be� either�
�floated� or� connected� to� VIDV� CC� to� get� a� digital� high� input.�
�The� series� diode� is� used� to� prevent� the� digital� inputs� from�
�being� damaged� or� clamped� if� they� are� driven� higher� than�
�VIDV� CC� .� The� digital� inputs� accept� CMOS� voltage� levels.�
�VIDV� CC� is� the� supply� voltage� for� the� VID� section.� It� is�
�normally� connected� to� INTV� CC� but� can� be� driven� from�
�other� sources� such� as� a� 3.3V� supply.� If� it� is� driven� from�
�another� source,� that� source� MUST� be� in� the� range� of� 2.7V�
�to� 5.5V� and� MUST� be� alive� prior� to� enabling� the� LTC1736.�
�15�
�相关PDF资料 |
PDF描述 |
|---|---|
| 1210-393K | COIL 39.0UH FERRITE SMD |
| LTC1736IG#PBF | IC SW REG STEP-DONW SYNC 24-SSOP |
| 1210-333K | COIL 33.0UH FERRITE SMD |
| 1210-273K | COIL 27.0UH FERRITE SMD |
| LTC1736IG | IC REG SW SYNC STEPDWN HE 24SSOP |
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