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参数资料
| 型号: | LMZ14201EVAL/NOPB |
| 厂商: | National Semiconductor |
| 文件页数: | 14/27页 |
| 文件大小: | 0K |
| 描述: | EVAL BOARD FOR LMZ14201 |
| 产品培训模块: | SIMPLE SWITCHER Power Modules |
| 标准包装: | 1 |
| 系列: | SIMPLE SWITCHER® |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 1,非隔离 |
| 输出电压: | 3.3V |
| 电流 - 输出: | 1A |
| 输入电压: | 6 ~ 24 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 最高 1MHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | LMZ14201 |
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�LMZ14201�
�SNVS649F� –� JANUARY� 2010� –� REVISED� OCTOBER� 2013�
�www.ti.com�
�Recommended� minimum� input� capacitance� is� 10uF� X7R� ceramic� with� a� voltage� rating� at� least� 25%� higher� than�
�the� maximum� applied� input� voltage� for� the� application.� It� is� also� recommended� that� attention� be� paid� to� the�
�voltage� and� temperature� deratings� of� the� capacitor� selected.� It� should� be� noted� that� ripple� current� rating� of�
�ceramic� capacitors� may� be� missing� from� the� capacitor� data� sheet� and� you� may� have� to� contact� the� capacitor�
�manufacturer� for� this� rating.�
�If� the� system� design� requires� a� certain� minimum� value� of� input� ripple� voltage� Δ� V� IN� be� maintained� then� Equation� 9�
�may� be� used.�
�C� IN� ≥� I� O� *� D� *� (1–D)� /� f� SW-CCM� *� Δ� V� IN�
�(9)�
�If� Δ� V� IN� is� 1%� of� V� IN� for� a� 24V� input� to� 3.3V� output� application� this� equals� 240� mV� and� f� SW� =� 400� kHz.�
�C� IN� ≥� 1A� *� 3.3V/24V� *� (1–� 3.3V/24V)� /� (400000� *� 0.240� V)�
�≥� 0.9� μ� F�
�Additional� bulk� capacitance� with� higher� ESR� may� be� required� to� damp� any� resonant� effects� of� the� input�
�capacitance� and� parasitic� inductance� of� the� incoming� supply� lines.�
�R� ON� RESISTOR� SELECTION�
�Many� designs� will� begin� with� a� desired� switching� frequency� in� mind.� For� that� purpose� Equation� 10� can� be� used.�
�f� SW(CCM)� ?� V� O� /� (1.3� *� 10� -10� *� R� ON� )�
�This� can� be� rearranged� as�
�R� ON� ?� V� O� /� (1.3� *� 10� -10� *� f� SW(CCM)� )�
�(10)�
�(11)�
�The� selection� of� RON� and� f� SW(CCM)� must� be� confined� by� limitations� in� the� on-time� and� off-time� for� the� COT�
�Control� Circuit� Overview� section.�
�The� on-time� of� the� LMZ14201� timer� is� determined� by� the� resistor� R� ON� and� the� input� voltage� V� IN� .� It� is� calculated�
�as� follows:�
�t� ON� =� (1.3� *� 10� -10� *� R� ON� )� /� V� IN�
�(12)�
�The� inverse� relationship� of� t� ON� and� V� IN� gives� a� nearly� constant� switching� frequency� as� V� IN� is� varied.� R� ON� should�
�be� selected� such� that� the� on-time� at� maximum� V� IN� is� greater� than� 150� ns.� The� on-timer� has� a� limiter� to� ensure� a�
�minimum� of� 150� ns� for� t� ON� .� This� limits� the� maximum� operating� frequency,� which� is� governed� by� Equation� 13� :�
�f� SW(MAX)� =� V� O� /� (V� IN(MAX)� *� 150� nsec)�
�(13)�
�This� equation� can� be� used� to� select� R� ON� if� a� certain� operating� frequency� is� desired� so� long� as� the� minimum� on-�
�time� of� 150� ns� is� observed.� The� limit� for� R� ON� can� be� calculated� as� follows:�
�R� ON� ≥� V� IN(MAX)� *� 150� nsec� /� (1.3� *� 10� -10� )�
�(14)�
�If� R� ON� calculated� in� Equation� 11� is� less� than� the� minimum� value� determined� in� Equation� 14� a� lower� frequency�
�should� be� selected.� Alternatively,� V� IN(MAX)� can� also� be� limited� in� order� to� keep� the� frequency� unchanged.�
�Additionally� note,� the� minimum� off-time� of� 260� ns� limits� the� maximum� duty� ratio.� Larger� R� ON� (lower� F� SW� )� should�
�be� selected� in� any� application� requiring� large� duty� ratio.�
�Discontinuous� Conduction� and� Continuous� Conduction� Modes�
�At� light� load� the� regulator� will� operate� in� discontinuous� conduction� mode� (DCM).� With� load� currents� above� the�
�critical� conduction� point,� it� will� operate� in� continuous� conduction� mode� (CCM).� When� operating� in� DCM� the�
�switching� cycle� begins� at� zero� amps� inductor� current;� increases� up� to� a� peak� value,� and� then� recedes� back� to�
�zero� before� the� end� of� the� off-time.� Note� that� during� the� period� of� time� that� inductor� current� is� zero,� all� load�
�current� is� supplied� by� the� output� capacitor.� The� next� on-time� period� starts� when� the� voltage� on� the� at� the� FB� pin�
�falls� below� the� internal� reference.� The� switching� frequency� is� lower� in� DCM� and� varies� more� with� load� current� as�
�compared� to� CCM.� Conversion� efficiency� in� DCM� is� maintained� since� conduction� and� switching� losses� are�
�reduced� with� the� smaller� load� and� lower� switching� frequency.� Operating� frequency� in� DCM� can� be� calculated� as�
�follows:�
�f� SW(DCM)� ?� V� O� *(V� IN� -1)*10� μ� H*1.18*10� 20� *I� O� /(V� IN� –V� O� )*R� ON2�
�(15)�
�In� CCM,� current� flows� through� the� inductor� through� the� entire� switching� cycle� and� never� falls� to� zero� during� the�
�off-time.� The� switching� frequency� remains� relatively� constant� with� load� current� and� line� voltage� variations.� The�
�CCM� operating� frequency� can� be� calculated� using� Equation� 7� above.�
�14�
�Submit� Documentation� Feedback�
�Product� Folder� Links:� LMZ14201�
�Copyright� ?� 2010–2013,� Texas� Instruments� Incorporated�
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| LMZ14201EXT | 制造商:NSC 制造商全称:National Semiconductor 功能描述:1A SIMPLE SWITCHER? Power Module with 42V Maximum Input Voltage for Military and Rugged Applications |
| LMZ14201EXTEVAL/NOPB | 功能描述:电源管理IC开发工具 LMZ14201EXT EVAL BOARD RoHS:否 制造商:Maxim Integrated 产品:Evaluation Kits 类型:Battery Management 工具用于评估:MAX17710GB 输入电压: 输出电压:1.8 V |
| LMZ14201EXTTZ | 制造商:NSC 制造商全称:National Semiconductor 功能描述:1A SIMPLE SWITCHER? Power Module with 42V Maximum Input Voltage for Military and Rugged Applications |
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| LMZ14201EXTTZE | 制造商:NSC 制造商全称:National Semiconductor 功能描述:1A SIMPLE SWITCHER? Power Module with 42V Maximum Input Voltage for Military and Rugged Applications |
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