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| 型号: | LTM8026IV#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 18/26页 |
| 文件大小: | 0K |
| 描述: | IC UMODULE REGULATOR 36VIN 5A |
| 产品培训模块: | LTM8026 and LTM8052 Step-Down uModule Regulators |
| 标准包装: | 119 |
| 系列: | µModule® |
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�LTM8026�
�APPLICATIONS� INFORMATION�
�3.� Place� the� C� OUT� capacitor� as� close� as� possible� to� the�
�V� OUT� and� GND� connection� of� the� LTM8026.�
�4.� Place� the� C� IN� and� C� OUT� capacitors� such� that� their�
�ground� current� flow� directly� adjacent� or� underneath�
�the� LTM8026.�
�5.� Connect� all� of� the� GND� connections� to� as� large� a� copper�
�pour� or� plane� area� as� possible� on� the� top� layer.� Avoid�
�breaking� the� ground� connection� between� the� external�
�components� and� the� LTM8026.�
�6.� Use� vias� to� connect� the� GND� copper� area� to� the� board’s�
�internal� ground� planes.� Liberally� distribute� these� GND�
�vias� to� provide� both� a� good� ground� connection� and�
�thermal� path� to� the� internal� planes� of� the� printed� circuit�
�board.� Pay� attention� to� the� location� and� density� of� the�
�thermal� vias� in� Figure� 5.� The� LTM8026� can� benefit� from�
�the� heat� sinking� afforded� by� vias� that� connect� to� internal�
�GND� planes� at� these� locations,� due� to� their� proximity�
�to� internal� power� handling� components.� The� optimum�
�number� of� thermal� vias� depends� upon� the� printed�
�circuit� board� design.� For� example,� a� board� might� use�
�very� small� via� holes.� It� should� employ� more� thermal�
�vias� than� a� board� that� uses� larger� holes.�
�Hot� Plugging� Safely�
�The� small� size,� robustness� and� low� impedance� of� ceramic�
�capacitors� make� them� an� attractive� option� for� the� input�
�bypass� capacitor� of� LTM8026.� However,� these� capacitors�
�can� cause� problems� if� the� LTM8026� is� plugged� into� a� live�
�input� supply� (see� Application� Note� 88� for� a� complete� dis-�
�cussion).� The� low� loss� ceramic� capacitor� combined� with�
�stray� inductance� in� series� with� the� power� source� forms� an�
�underdamped� tank� circuit,� and� the� voltage� at� the� V� IN� pin�
�of� the� LTM8026� can� ring� to� more� than� twice� the� nominal�
�input� voltage,� possibly� exceeding� the� LTM8026’s� rating�
�and� damaging� the� part.� If� the� input� supply� is� poorly� con-�
�trolled� or� the� user� will� be� plugging� the� LTM8026� into� an�
�energized� supply,� the� input� network� should� be� designed�
�to� prevent� this� overshoot.� This� can� be� accomplished� by�
�installing� a� small� resistor� in� series� to� V� IN� ,� but� the� most�
�popular� method� of� controlling� input� voltage� overshoot� is�
�to� add� an� electrolytic� bulk� capacitor� to� the� V� IN� net.� This�
�capacitor’s� relatively� high� equivalent� series� resistance�
�damps� the� circuit� and� eliminates� the� voltage� overshoot.�
�The� extra� capacitor� improves� low� frequency� ripple� filter-�
�ing� and� can� slightly� improve� the� efficiency� of� the� circuit,�
�though� it� is� physically� large.�
�Thermal� Considerations�
�The� LTM8026� output� current� may� need� to� be� derated� if� it�
�is� required� to� operate� in� a� high� ambient� temperature.� The�
�amount� of� current� derating� is� dependent� upon� the� input�
�voltage,� output� power� and� ambient� temperature.� The�
�temperature� rise� curves� given� in� the� Typical� Performance�
�Characteristics� section� can� be� used� as� a� guide.� These� curves�
�were� generated� by� the� LTM8026� mounted� to� a� 58cm� 2�
�4-layer� FR4� printed� circuit� board.� Boards� of� other� sizes�
�and� layer� count� can� exhibit� different� thermal� behavior,� so�
�it� is� incumbent� upon� the� user� to� verify� proper� operation�
�over� the� intended� system’s� line,� load� and� environmental�
�operating� conditions.�
�For� increased� accuracy� and� fidelity� to� the� actual� applica-�
�tion,� many� designers� use� finite� element� analysis� (FEA)� to�
�predict� thermal� performance.� To� that� end,� Page� 2� of� the�
�data� sheet� typically� gives� four� thermal� coefficients:�
�θ� JA� –� Thermal� resistance� from� junction� to� ambient�
�θ� JCbottom� –� Thermal� resistance� from� junction� to� the�
�bottom� of� the� product� case�
�θ� JCtop� –� Thermal� resistance� from� junction� to� top� of� the�
�product� case�
�θ� JB� –� Thermal� resistance� from� junction� to� the� printed�
�circuit� board.�
�While� the� meaning� of� each� of� these� coefficients� may� seem�
�to� be� intuitive,� JEDEC� has� defined� each� to� avoid� confusion�
�and� inconsistency.� These� definitions� are� given� in� JESD�
�51-12,� and� are� quoted� or� paraphrased� below:�
�θ� JA� is� the� natural� convection� junction-to-ambient� air�
�thermal� resistance� measured� in� a� one� cubic� foot� sealed�
�enclosure.� This� environment� is� sometimes� referred� to� as�
�“still� air”� although� natural� convection� causes� the� air� to�
�move.� This� value� is� determined� with� the� part� mounted� to�
�a� JESD� 51-9� defined� test� board,� which� does� not� reflect� an�
�actual� application� or� viable� operating� condition.�
�8026fb�
�18�
�For� more� information� www.linear.com/LTM8026�
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