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参数资料
| 型号: | NCP5424EVB |
| 厂商: | ON Semiconductor |
| 文件页数: | 12/18页 |
| 文件大小: | 0K |
| 描述: | EVAL BOARD FOR NCP5424 |
| 产品变化通告: | Product Obsolescence 24/Jan/2011 |
| 设计资源: | NCP5424 Demo Board BOM NCP5424EVB Gerber Files NCP5424EVB Schematic |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 1,非隔离 |
| 输出电压: | 1.5V |
| 电流 - 输出: | 17A |
| 输入电压: | 3.3V,5V,12V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 300kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | NCP5424 |
| 其它名称: | NCP5424EVBOS |
��
�
�NCP5424�
�The� actual� output� voltage� deviation� due� to� ESR� can� then�
�be� verified� and� compared� to� the� value� assigned� by� the�
�designer:�
�D� VESR� +� D� IOUT� ESRMAX�
�Similarly,� the� maximum� allowable� ESL� is� calculated� from�
�the� following� formula:�
�SELECTION� OF� THE� POWER� FET�
�FET� Basics�
�The� use� of� a� MOSFET� as� a� power� switch� is� compelled� by�
�two� reasons:� 1)� high� input� impedance� ;� and� 2)� fast� switching�
�times� .� The� electrical� characteristics� of� a� MOSFET� are�
�considered� to� be� nearly� those� of� a� perfect� switch.� Control�
�ESLMAX� +�
�D� VESL�
�D� I�
�D� t�
�and� drive� circuitry� power� is� therefore� reduced.� Because� the�
�input� impedance� is� so� high,� it� is� voltage� driven.� The� input� of�
�the� MOSFET� acts� as� if� it� were� a� small� capacitor,� which� the�
�LIN� +�
�Selection� of� the� Input� Inductor�
�A� common� requirement� is� that� the� buck� controller� must�
�not� disturb� the� input� voltage.� One� method� of� achieving� this�
�is� by� using� an� input� inductor� and� a� bypass� capacitor.� The�
�input� inductor� isolates� the� supply� from� the� noise� generated�
�in� the� switching� portion� of� the� buck� regulator� and� also� limits�
�the� inrush� current� into� the� input� capacitors� upon� power� up.�
�The� inductor� ’s� limiting� effect� on� the� input� current� slew� rate�
�becomes� increasingly� beneficial� during� load� transients.� The�
�worst� case� is� when� the� load� changes� from� no� load� to� full� load�
�(load� step),� a� condition� under� which� the� highest� voltage�
�change� across� the� input� capacitors� is� also� seen� by� the� input�
�inductor.� The� inductor� successfully� blocks� the� ripple� current�
�while� placing� the� transient� current� requirements� on� the� input�
�bypass� capacitor� bank,� which� has� to� initially� support� the�
�sudden� load� change.�
�The� minimum� inductance� value� for� the� input� inductor� is�
�therefore:�
�D� V�
�(dI� dt)MAX�
�where:�
�L� IN� =� input� inductor� value;�
�D� V� =� voltage� seen� by� the� input� inductor� during� a� full� load�
�swing;�
�(dI/dt)� MAX� =� maximum� allowable� input� current� slew� rate.�
�The� designer� must� select� the� LC� filter� pole� frequency� so�
�that� at� least� 40� dB� attenuation� is� obtained� at� the� regulator�
�switching� frequency.� The� LC� filter� is� a� double?pole� network�
�with� a� slope� of� ?2.0,� a� roll?off� rate� of� ?40� dB/dec,� and� a�
�corner� frequency:�
�driving� circuit� must� charge� at� turn� on.� The� lower� the� drive�
�impedance,� the� higher� the� rate� of� rise� of� V� GS� ,� and� the� faster�
�the� turn?on� time.� Power� dissipation� in� the� switching�
�MOSFET� consists� of� 1)� conduction� losses,� 2)� leakage�
�losses,� 3)� turn?on� switching� losses,� 4)� turn?off� switching�
�losses,� and� 5)� gate?transitions� losses.� The� latter� three� losses�
�are� proportional� to� frequency.�
�The� most� important� aspect� of� FET� performance� is� the�
�Static� Drain?To?Source� On?Resistance� (R� DS(ON)� ),� which�
�affects� regulator� efficiency� and� FET� thermal� management�
�requirements.� The� On?Resistance� determines� the� amount� of�
�current� a� FET� can� handle� without� excessive� power�
�dissipation� that� may� cause� overheating� and� potentially�
�catastrophic� failure.� As� the� drain� current� rises,� especially�
�above� the� continuous� rating,� the� On?Resistance� also�
�increases.� Its� positive� temperature� coefficient� is� between�
�+0.6%/� °� C� and� +0.85%/� °� C.� The� higher� the� On?Resistance�
�the� larger� the� conduction� loss� is.� Additionally,� the� FET� gate�
�charge� should� be� low� in� order� to� minimize� switching� losses�
�and� reduce� power� dissipation.�
�Both� logic� level� and� standard� FETs� can� be� used.�
�Voltage� applied� to� the� FET� gates� depends� on� the�
�application� circuit� used.� Both� upper� and� lower� gate� driver�
�outputs� are� specified� to� drive� to� within� 1.5� V� of� ground� when�
�in� the� low� state� and� to� within� 2.0� V� of� their� respective� bias�
�supplies� when� in� the� high� state.� In� practice,� the� FET� gates�
�will� be� driven� rail?to?rail� due� to� overshoot� caused� by� the�
�capacitive� load� they� present� to� the� controller� IC.�
�Selection� of� the� Switching� (Upper)� FET�
�The� designer� must� ensure� that� the� total� power� dissipation�
�where:�
�L� =� input� inductor;�
�fC� +�
�2� p�
�1�
�LC�
�in� the� FET� switch� does� not� cause� the� power� component’s�
�junction� temperature� to� exceed� 150� °� C.�
�The� maximum� RMS� current� through� the� switch� can� be�
�determined� by� the� following� formula:�
�C� =� input� capacitor(s).�
�IRMS(H)� +�
�IL(PEAK)2� )� (IL(PEAK)�
�)� IL(VALLEY)2� D�
�3�
�IL(VALLEY))�
�where:�
�I� RMS(H)� =� maximum� switching� MOSFET� RMS� current;�
�I� L(PEAK)� =� inductor� peak� current;�
�I� L(VALLEY)� =� inductor� valley� current;�
�D� =� duty� cycle.�
�Once� the� RMS� current� through� the� switch� is� known,� the�
�switching� MOSFET� conduction� losses� can� be� calculated:�
�http://onsemi.com�
�12�
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