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| 型号: | MCP1650DM-LED1 |
| 厂商: | Microchip Technology |
| 文件页数: | 18/28页 |
| 文件大小: | 0K |
| 描述: | BOARD DEMO FOR MCP165X |
| 标准包装: | 1 |
| 输出及类型: | 1,非隔离 |
| 特点: | 可调光 |
| 输入电压: | 2 ~ 4.5 V |
| 已供物品: | 板 |
| 已用 IC / 零件: | MCP1651 |
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�
�MCP1650/51/52/53�
�To� determine� the� maximum� inductance� for�
�5.2.2�
�MOSFET� SELECTION�
�Discontinuous� Operating� mode,� multiply� the� energy�
�going� into� the� inductor� every� switching� cycle� by� the�
�number� of� cycles� per� second� (switching� frequency).�
�This� number� must� be� greater� than� the� maximum� input�
�power.�
�There� are� a� couple� of� key� consideration’s� when�
�selecting� the� proper� MOSFET� for� the� boost� design.� A�
�low� R� DSON� logic-level� N-channel� MOSFET� is�
�recommended.�
�The� equation� for� the� energy� flowing� into� the� inductor� is�
�5.2.2.1�
�MOSFET� Selection� Process.�
�Energy� =� 1� ---� � L� � I� PK�
�given� below.� The� input� power� to� the� system� is� equal� to�
�energy� times� time.�
�2�
�2�
�The� inductor� peak� current� is� calculated� using� the�
�1.�
�Voltage� Rating� -� The� MOSFET� drain-to-source�
�voltage� must� be� rated� for� a� minimum� of� V� OUT� +�
�V� FD� of� the� external� boost� diode.� For� example,� in�
�the� 12V� output� converter,� a� MOSFET� drain-to-�
�source� voltage� rating� of� 12V� +� 0.5V� is�
�necessary.� Typically,� a� 20V� part� can� be� used� for�
�12V� outputs.�
�I� PK� =� --------� � T� ON�
�equation� below:�
�V� IN�
�L�
�2.�
�Logic-Level� R� DSON� -� The� MOSFET� carries�
�significant� current� during� the� boost� cycle� on�
�time.� During� this� time,� the� peak� current� in� the�
�MOSFET� can� get� quite� high.� In� this� example,� a�
�Using� a� typical� inductance� of� 3.3� μH,� the� peak� current�
�in� the� inductor� is� calculated� below:�
�F� SW� =� 750� kHz�
�T� ON� =� (1/F� SW� *� Duty� Cycle)�
�I� PK� (2.8V)� =� 905� mA�
�Energy� (2.8V)� =� 1.35� μ-Joules�
�Power� (2.8V)� =� 1.01� Watts�
�At� 3.8V� and� below,� the� converter� can� boost� to� 14V�
�while� operating� in� the� Continuous� mode.�
�I� PK� (3.8V)� =� 860� mA�
�Energy� at� 3.8V� =� 1.22� μ-Joules�
�Power� =� 0.914� Watts�
�For� this� example,� a� 3.3� μH� inductor� is� too� large,� a�
�2.2� μH� inductor� is� selected.�
�F� SW� =� 750� kHz�
�T� ON� =� (1/F� SW� *� Duty� Cycle)�
�I� PK� (2.8V)� =� 1.36A�
�Energy� (2.8V)� =� 2.02� μ-Joules�
�Power� (2.8V)� =� 1.52� Watts�
�I� PK� (3.8V)� =� 1.29A�
�Energy� at� 3.8V� =� 1.83� μ-Joules�
�Power� =� 1.4� Watts�
�As� the� inductance� is� lowered,� the� peak� current� drawn�
�from� the� input� at� all� loads� is� increased.� The� best� choice�
�of� inductance� for� high� boost� ratios� is� the� maximum�
�inductance� value� necessary� while� maintaining�
�discontinuous� operation.�
�For� lower� boost-ratio� applications� (3.3V� to� 5.0V),� a�
�3.3� μH� inductor� or� larger� is� recommended.� In� these�
�cases,� the� inductor� operates� in� Continuous� Current�
�mode.�
�DS21876A-page� 18�
�SOT-23� MOSFET� was� used� with� the� following�
�ratings:�
�IRLM2502� N-channel� MOSFET�
�V� BDS� =� 20V� (Drain� Source� Breakdown�
�Voltage)�
�R� DSON� =� 50� milli-ohms� (V� GS� =� 2.5V)�
�R� DSON� =� 35� milli-ohms� (V� GS� =� 5.0V)�
�Q� G� =� Total� Gate� Charge� =� 8� nC�
�V� GS� =� 0.6V� to� 1.2V� (Gate� Source� Threshold�
�Voltage)�
�Selecting� MOSFETs� with� lower� R� DSON� is� not� always�
�better� or� more� efficient.� Lower� R� DSON� typically� results�
�in� higher� total� gate� charge� and� input� capacitance,� slow-�
�ing� the� transition� time� of� the� MOSFET� and� resulting� in�
�increased� switching� losses.�
�5.2.3� DIODE� SELECTION�
�The� external� boost� diode� also� switches� on� and� off� at� the�
�switching� frequency� and� requires� very� fast� turn-on� and�
�turn-off� times.� For� most� applications,� Schottky� diodes�
�are� recommended.� The� voltage� rating� of� the� Schottky�
�diode� must� be� rated� for� maximum� boost� output� voltage.�
�For� example,� 12V� output� boost� converter,� the� diode�
�should� be� rated� for� 12V� plus� margin.� A� 20V� or� 30V�
�Schottky� diode� is� recommended� for� a� 12V� output� appli-�
�cation.� Schottky� diodes� also� have� low� forward-drop�
�characteristics,� another� desired� feature� for� switching�
�power� supply� applications.�
�?� 2004� Microchip� Technology� Inc.�
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