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| 型号: | NCP1571D |
| 厂商: | ON Semiconductor |
| 文件页数: | 12/16页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM 8-SOIC |
| 产品变化通告: | Product Obsolescence 11/Feb/2009 |
| 标准包装: | 98 |
| PWM 型: | 电流/电压模式,V²? |
| 输出数: | 1 |
| 频率 - 最大: | 250kHz |
| 电源电压: | 11.4 V ~ 12.6 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | 0°C ~ 125°C |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 管件 |
��
�
�NCP1571�
�(VIN� *� VOUT)VOUT�
�IRIPPLE� +�
�Current� in� the� inductor� while� operating� in� the� continuous�
�current� mode� is� defined� as� the� load� current� plus� ripple�
�current.�
�IL� +� ILOAD� )� IRIPPLE�
�The� ripple� current� waveform� is� triangular,� and� the� current�
�is� a� function� of� voltage� across� the� inductor,� switch� FET�
�on?time� and� the� inductor� value.� FET� on?time� can� be� defined�
�as� the� product� of� duty� cycle� and� switch� frequency,� and� duty�
�cycle� can� be� defined� as� a� ratio� of� V� OUT� to� V� IN� .� Thus,�
�(fOSC)(L)(VIN)�
�Peak� inductor� current� is� defined� as� the� load� current� plus�
�half� of� the� peak� current.� Peak� current� must� be� less� than� the�
�maximum� rated� FET� switch� current,� and� must� also� be� less�
�than� the� inductor� saturation� current.� Thus,� the� maximum�
�output� current� can� be� defined� as:�
�Finally,� we� should� consider� power� dissipation� in� the�
�output� inductors.� Power� dissipation� is� proportional� to� the�
�square� of� inductor� current:�
�PD� +� (I� 2L� )(ESRL)�
�The� temperature� rise� of� the� inductor� relative� to� the� air�
�surrounding� it� is� defined� as� the� product� of� power� dissipation�
�and� thermal� resistance� to� ambient:�
�D� T(inductor)� +� (Ra)(PD)�
�Ra� for� an� inductor� designed� to� conduct� 20� A� to� 30� A� is�
�approximately� 45� °� C/W.� The� inductor� temperature� is� given� as:�
�T(inductor)� +� D� T(inductor)� )� Tambient�
�V� CC� Bypass� Filtering�
�A� small� RC� filter� should� be� added� between� module� V� CC�
�and� the� V� CC� input� to� the� IC.� A� 10� W� resistor� and� a� 0.47� m� F�
�capacitor� should� be� sufficient� to� ensure� the� controller� IC� does�
�IOUT(MAX)� +� ISWITCH(MAX)� *�
�VIN(MAX)� *� VOUT VOUT�
�2� fOSC� L� VIN(MAX)�
�not� operate� erratically� due� to� injected� noise,� and� will� also�
�supply� reserve� charge� for� the� onboard� gate� drivers.�
�Since� the� maximum� output� current� must� be� less� than� the�
�maximum� switch� current,� the� minimum� inductance� required�
�can� be� determined.�
�Input� Filter� Capacitors�
�The� input� filter� capacitors� provide� a� charge� reservoir� that�
�minimizes� supply� voltage� variations� due� to� changes� in� current�
�L(MIN)� +�
�(VIN(MIN)� *� VOUT)VOUT�
�(fOSC)(ISWITCH(MAX))(VIN(MIN))�
�flowing� through� the� switch� FETs.� These� capacitors� must� be�
�chosen� primarily� for� ripple� current� rating.�
�This� equation� identifies� the� value� of� inductor� that� will�
�provide� the� full� rated� switch� current� as� inductor� ripple�
�current,� and� will� usually� result� in� inefficient� system�
�operation.� The� system� will� sink� current� away� from� the� load�
�V� IN�
�L� IN�
�I� IN(AVE)�
�C� IN�
�L� OUT�
�V� OUT�
�C� OUT�
�during� some� portion� of� the� duty� cycle� unless� load� current� is�
�greater� than� half� of� the� rated� switch� current.� Some� value�
�larger� than� the� minimum� inductance� must� be� used� to� ensure�
�the� converter� does� not� sink� current.� Choosing� larger� values�
�I� RMS(CIN)�
�CONTROL�
�INPUT�
�L(RIPPLE)� +�
�(L)(� D� IOUT)�
�(VIN� *� VOUT)�
�IIN(AVE)� +� IOUT�
�(L)(� D� IOUT)�
�TRESPONSE(DECREASING)� +�
�of� inductor� will� reduce� the� ripple� current,� and� inductor� value�
�can� be� designed� to� accommodate� a� particular� value� of� ripple�
�current� by� replacing� I� SWITCH(MAX)� with� a� desired� value� of�
�I� RIPPLE� :�
�(VIN(MIN)� *� VOUT)VOUT�
�(fOSC)(IRIPPLE)(VIN(MIN))�
�However,� reducing� the� ripple� current� will� cause� transient�
�response� times� to� increase.� The� response� times� for� both�
�increasing� and� decreasing� current� steps� are� shown� below.�
�TRESPONSE(INCREASING)� +�
�(VOUT)�
�Inductor� value� selection� also� depends� on� how� much� output�
�ripple� voltage� the� system� can� tolerate.� Output� ripple� voltage�
�Figure� 24.�
�Consider� the� schematic� shown� in� Figure� 24.� The� average�
�current� flowing� in� the� input� inductor� L� IN� for� any� given�
�output� current� is:�
�VOUT�
�VIN�
�Input� capacitor� current� is� positive� into� the� capacitor� when�
�the� switch� FETs� are� off,� and� negative� out� of� the� capacitor�
�when� the� switch� FETs� are� on.� When� the� switches� are� off,�
�I� IN(AVE)� flows� into� the� capacitor.� When� the� switches� are� on,�
�capacitor� current� is� equal� to� the� per?phase� output� current�
�minus� I� IN(AVE)� .� If� we� ignore� the� small� current� variation� due�
�to� the� output� ripple� current,� we� can� approximate� the� input�
�capacitor� current� waveform� as� a� square� wave.� We� can� then�
�calculate� the� RMS� input� capacitor� ripple� current:�
�I� 2IN(AVE)� )� OUT�
�is� defined� as� the� product� of� the� output� ripple� current� and� the�
�output� filter� capacitor� ESR.�
�Thus,� output� ripple� voltage� can� be� calculated� as:�
�ESRC VIN� *� VOUT VOUT�
�VRIPPLE� +� ESRC� IRIPPLE� +�
�fOSC� L� VIN�
�IRMS(CIN)� +�
�V�
�VIN�
�IOUT� per� phase� *� IIN(AVE)� 2� *� I� 2IN(AVE)�
�http://onsemi.com�
�12�
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