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�LTM4607�
�APPLICATIONS� INFORMATION�
�pin� for� turning� off� the� controller.� If� the� pin� is� left� open�
�or� decoupled� with� a� capacitor� to� ground,� the� SS� pin� is�
�internally� provided� with� a� starting� current,� permitting�
�external� control� for� turning� on� the� controller.� If� the� pin�
�is� connected� to� a� voltage� greater� than� 1.25V,� the� internal�
�regulator� (INTV� CC� )� will� be� on� even� when� the� controller� is�
�shut� down� (RUN� pin� voltage� <1.6V).� In� this� mode,� the�
�onboard� 6V� output� linear� regulator� can� provide� power� to�
�keep-alive� functions� such� as� a� keyboard� controller.�
�INTV� CC� and� EXTV� CC�
�An� internal� P-channel� low� dropout� regulator� produces� 6V�
�at� the� INTV� CC� pin� from� the� V� IN� supply� pin.� INTV� CC� powers�
�the� control� chip� and� internal� circuitry� within� the� module.�
�The� LTM4607� also� provides� the� external� supply� voltage� pin�
�EXTV� CC� .� When� the� voltage� applied� to� EXTV� CC� rises� above�
�5.7V,� the� internal� regulator� is� turned� off� and� an� internal�
�switch� connects� the� EXTV� CC� pin� to� the� INTV� CC� pin� thereby�
�supplying� internal� power.� The� switch� remains� closed� as� long�
�as� the� voltage� applied� to� EXTV� CC� remains� above� 5.5V.� This�
�allows� the� MOSFET� driver� and� control� power� to� be� derived�
�from� the� output� when� (5.7V� <� V� OUT� <� 7V)� and� from� the�
�internal� regulator� when� the� output� is� out� of� regulation� (start-�
�up,� short-circuit).� If� more� current� is� required� through� the�
�EXTV� CC� switch� than� is� specified,� an� external� Schottky� diode�
�can� be� interposed� between� the� EXTV� CC� and� INTV� CC� pins.�
�Ensure� that� EXTV� CC� ≤� V� IN� .�
�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� 6V� regulator� at� the� cost�
�of� a� small� efficiency� penalty.�
�2.� EXTV� CC� connected� directly� to� V� OUT� (5.7V� <� V� OUT� <� 7V).�
�This� is� the� normal� connection� for� a� 6V� regulator� and�
�provides� the� highest� efficiency.�
�Thermal� Considerations� and� Output� Current� Derating�
�In� different� applications,� LTM4607� operates� in� a� variety�
�of� thermal� environments.� The� maximum� output� current� is�
�limited� by� the� environmental� thermal� condition.� Sufficient�
�cooling� should� be� provided� to� ensure� reliable� operation.�
�When� the� cooling� is� limited,� proper� output� current� de-�
�rating� is� necessary,� considering� ambient� temperature,�
�airflow,� input/output� condition,� and� the� need� for� increased�
�reliability.�
�The� power� loss� curves� in� Figures� 5� and� 6� can� be� used�
�in� coordination� with� the� load� current� derating� curves� in�
�Figures� 7� to� 14� for� calculating� an� approximate� θ� JA� for�
�the� module.� Column� designation� delineates� between� no�
�heat� sink,� and� a� BGA� heat� sink.� Each� of� the� load� current�
�derating� curves� will� lower� the� maximum� load� current� as�
�a� function� of� the� increased� ambient� temperature� to� keep�
�the� maximum� junction� temperature� of� the� power� module�
�at� 115°C� allowing� a� safe� margin� for� the� maximum� operat-�
�ing� temperature� below� 125°C.� Each� of� the� derating� curves�
�and� the� power� loss� curve� that� corresponds� to� the� correct�
�output� voltage� can� be� used� to� solve� for� the� approximate�
�θ� JA� of� the� condition.�
�DESIGN� EXAMPLES�
�Buck� Mode� Operation�
�As� a� design� example,� use� input� voltage� V� IN� =� 12V� to� 36V,�
�V� OUT� =� 12V� and� ?� =� 400kHz.�
�Set� the� PLLFLTR� pin� at� 2.4V� or� more� for� 400kHz� frequency�
�and� connect� FCB� to� ground� for� continuous� current� mode�
�operation.� If� a� divider� is� used� to� set� the� frequency� as� shown�
�in� Figure� 16,� the� bottom� resistor� R3� is� recommended� not�
�to� exceed� 1kΩ.�
�To� set� the� output� voltage� at� 12V,� the� resistor� R� FB� from� V� FB�
�pin� to� ground� should� be� chosen� as:�
�3.� EXTV� CC� connected� to� an� external� supply.� If� an� external�
�supply� is� available� in� the� 5.5V� to� 7V� range,� it� may� be�
�used� to� power� EXTV� CC� provided� it� is� compatible� with�
�the� MOSFET� gate� drive� requirements.�
�R� FB� =�
�0.8V� ?� 100k�
�V� OUT� ?� 0.8V�
�≈� 7.15k�
�13�
�For� more� information� www.linear.com/LTM4607�
�4607fc�
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