参数资料
| 型号: | NCV898031D1R2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 10/15页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 8SOIC |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 2.2MHz |
| 占空比: | 90% |
| 电源电压: | 3.2 V ~ 40 V |
| 降压: | 无 |
| 升压: | 是 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 150°C |
| 封装/外壳: | * |
| 包装: | * |
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�
�NCV898031�
�R� S� +�
�f� resonance� +�
�Select� Current� Sense� Resistor�
�Current� sensing� for� peak� current� mode� control� and� current�
�limit� relies� on� the� MOSFET� current� signal,� which� is�
�measured� with� a� ground� referenced� amplifier.� Note� that� the�
�I� CL� equals� the� sum� of� the� currents� from� both� inductors.� The�
�easiest� method� of� generating� this� signal� is� to� use� a� current�
�sense� resistor� from� the� source� of� the� MOSFET� to� device�
�ground.� The� sense� resistor� should� be� selected� as� follows:�
�V� CL�
�I� CL�
�Where:� R� S� :� sense� resistor� [� W� ]�
�V� CL� :� current� limit� threshold� voltage� [V]�
�I� CL� :� desire� current� limit� [A]�
�Current� mode� control� helps� resolve� some� of� the� resonant�
�frequencies� that� create� issues� in� voltage� mode� SEPIC�
�converter� designs,� but� some� resonance� issues� may� occur.� A�
�resonant� frequency� exists� at�
�1�
�2� p� (L1� )� L2)C� coupling�
�It� may� become� necessary� to� place� an� RC� damping� network�
�in� parallel� with� the� coupling� capacitor� if� the� resonance� is�
�within� ~1� decade� of� the� closed� ?� loop� crossover� frequency.�
�The� capacitance� of� the� damping� capacitor� should� be� ~5�
�times� that� of� the� coupling� capacitor.� The� optimal� damping�
�resistance� (including� the� ESR� of� the� damping� capacitor)� is�
�calculated� as�
�Select� SEPIC� Inductors�
�The� output� inductor� controls� the� current� ripple� that� occurs�
�over� a� switching� period.� A� high� current� ripple� will� result� in�
�R� damping� +�
�L1� )� L2�
�C� coupling�
�V� IN(WC)� D� WC�
�D� I� L,max� f� s�
�1� *� D� WC�
�C� OUT� f� s�
�2� f� s� L� 2�
�I� Cout(RMS)� +�
�I� OUT(max)� 2� D� WC� )� I� 2� a� )�
�I� 2� r�
�*� I� a� I� r� D� WC�
�I� L,AVG� +�
�excessive� power� loss� and� ripple� current� requirements.� A� low�
�current� ripple� will� result� in� a� poor� control� signal� and� a� slow�
�current� slew� rate� in� case� of� load� steps.� A� good� starting� point�
�for� peak� to� peak� ripple� is� around� 20� ?� 40%� of� the� inductor�
�current� at� the� maximum� load� at� the� worst� case� V� IN� ,� but�
�operation� should� be� verified� empirically.� The� worst� case� V� IN�
�is� the� minimum� input� voltage.� After� choosing� a� peak� current�
�ripple� value,� calculate� the� inductor� value� as� follows:�
�L� +�
�Where:� V� IN(WC)� :� V� IN� value� as� close� as� possible� to� half� of�
�V� OUT� [V]�
�D� WC� :� duty� cycle� at� V� IN(WC)�
�D� I� L,max� :� maximum� peak� to� peak� ripple� [A]�
�The� maximum� average� inductor� current� can� be� calculated� as�
�follows:�
�V� OUT� I� OUT(max)�
�V� IN(min)� h�
�The� Peak� Inductor� current� can� be� calculated� as� follows:�
�Select� Output� Capacitors�
�The� output� capacitors� smooth� the� output� voltage� and�
�reduce� the� overshoot� and� undershoot� associated� with� line�
�transients.� The� steady� state� output� ripple� associated� with� the�
�output� capacitors� can� be� calculated� as� follows:�
�V� OUT(ripple)� +�
�I� OUT(max)� D� WC� I� OUT(max)� D� WC� V� IN(min)�
�)� )� R� esr�
�The� capacitors� need� to� survive� an� RMS� ripple� current� as�
�follows:�
�3�
�where�
�I� a� +� I� L1_peak� )� I� L2_peak� *� I� L1_peak�
�I� r� +� D� I� L1� )� D� I� L2�
�The� use� of� parallel� ceramic� bypass� capacitors� is� strongly�
�encouraged� to� help� with� the� transient� response.�
�I� L1,peak� +� I� L1,avg� )�
�D� I� L1�
�2�
�Select� Input� Capacitors�
�The� input� capacitor� reduces� voltage� ripple� on� the� input� to�
�I� Cin(RMS)� +�
�I� L2,peak� +� I� OUT(max)� )�
�Where� (if� L1� =� L2):� D� I� L1� =� D� I� L2�
�Select� Coupling� Capacitor�
�D� I� L2�
�2�
�the� module� associated� with� the� ac� component� of� the� input�
�current.�
�D� I� L1�
�12�
�Coupling� capacitor� RMS� current� is� significant.� A� low�
�ESR� ceramic� capacitor� is� required� as� a� coupling� capacitor.�
�Selecting� a� capacitor� value� too� low� will� result� in� high�
�capacitor� ripple� voltage� which� will� distort� ripple� current� and�
�diminish� input� line� regulation� capability.� Budgeting� 2� ?� 5%�
�coupling� capacitor� ripple� voltage� is� a� reasonable� guideline.�
�Select� Feedback� Resistors�
�The� feedback� resistors� form� a� resistor� divider� from� the�
�output� of� the� converter� to� ground,� with� a� tap� to� the� feedback�
�pin.� During� regulation,� the� divided� voltage� will� equal� V� ref� .�
�The� lower� feedback� resistor� can� be� chosen,� and� the� upper�
�feedback� resistor� value� is� calculated� as� follows:�
�D� V� coupling� +�
�I� out� D� WC�
�C� coupling� f� s�
�R� upper� +� R� lower�
�V� out� *� V� ref�
�V� ref�
�http://onsemi.com�
�10�
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| NCVT-1 | 制造商:KLEIN TOOLS 功能描述:NON-CONTACT VOLTAGE TESTER W/BATT, 50-1000V 制造商:Klein Tools Inc 功能描述:Testing Equipment Non-Contact Voltage Testers |
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