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参数资料
| 型号: | NCP81081MNR2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 5/7页 |
| 文件大小: | 0K |
| 描述: | IC DRIVER/MOSFET 40-QFN |
| 标准包装: | 2,500 |
| 类型: | 高端/低端驱动器 |
| 输入类型: | PWM |
| 输出数: | 1 |
| 电流 - 输出 / 通道: | 35A |
| 电源电压: | 4.5 V ~ 25 V |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 40-VFQFN 裸露焊盘 |
| 供应商设备封装: | 40-QFN(6x6) |
| 包装: | 带卷 (TR) |
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�
�NCP81081�
�APPLICATIONS� INFORMATION�
�Theory� of� Operation�
�The� NCP81081� is� an� integrated� driver� and� MOSFET�
�module� designed� for� use� in� a� synchronous� buck� converter�
�topology.� A� single� PWM� input� signal� is� all� that� is� required�
�to� properly� drive� the� high� ?� side� and� low� ?� side� MOSFETs.�
�Low� ?� Side� Driver�
�The� low� ?� side� driver� is� designed� to� drive� a�
�ground� ?� referenced� low� R� DS(on)� N� ?� Channel� MOSFET.� The�
�voltage� rail� for� the� low� ?� side� driver� is� internally� connected� to�
�VCIN� and� PGND.�
�High� ?� Side� Driver�
�The� high� ?� side� driver� is� designed� to� drive� a� floating� low�
�RDS(on)� N� ?� channel� MOSFET.� The� gate� voltage� for� the�
�high� side� driver� is� developed� by� a� bootstrap� circuit�
�referenced� to� Switch� Node� (VSWH)� pin.�
�The� bootstrap� circuit� is� comprised� of� the� internal� diode�
�and� an� external� bootstrap� capacitor.� When� the� NCP81081� is�
�starting� up,� the� VSWH� pin� is� at� ground,� so� the� bootstrap�
�capacitor� will� charge� up� to� VCIN� through� the� bootstrap�
�diode� See� Figure� 1.� When� the� PWM� input� goes� high,� the�
�high� ?� side� driver� will� begin� to� turn� on� the� high� ?� side�
�MOSFET� using� the� stored� charge� of� the� bootstrap� capacitor.�
�As� the� high� ?� side� MOSFET� turns� on,� the� VSWH� pin� will�
�rise.� When� the� high� ?� side� MOSFET� is� fully� on,� the� switch�
�node� will� be� at� 12� V,� and� the� BST� pin� will� be� at� 5� V� plus� the�
�charge� of� the� bootstrap� capacitor� (approaching� 17� V).�
�The� bootstrap� capacitor� is� recharged� when� the� switch�
�node� goes� low� during� the� next� cycle.�
�Zero� Current� Detect�
�When� ZCD_EN#� is� set� high,� the� NCP81081� will� operate�
�in� normal� PWM� mode.�
�When� ZCD_EN#� is� set� low,� zero� current� detect� (ZCD)�
�will� be� enabled.� If� PWM� goes� high,� GH� will� go� high� after� the�
�non� ?� overlap� delay.� If� PWM� goes� low,� GL� will� go� high� after�
�the� non� ?� overlap� delay,� and� stay� high� for� the� duration� of� the�
�ZCD� blanking� timer.� Once� this� timer� has� expired,� VSWH�
�will� be� monitored� for� zero� current� detection,� and� will� pull�
�GL� low� once� detected.� The� threshold� on� VSWH� to�
�determine� zero� current� undergoes� an� auto-calibration� cycle�
�every� time� DISB#� is� brought� from� low� to� high.� This�
�auto-calibration� cycle� typically� takes� 25� m� s� to� complete.�
�Safety� Timer� and� Overlap� Protection� Circuit�
�It� is� very� important� that� MOSFETs� in� a� synchronous� buck�
�regulator� do� not� both� conduct� at� the� same� time.� Excessive�
�shoot� ?� through� or� cross� conduction� can� damage� the�
�MOSFETs,� and� even� a� small� amount� of� cross� conduction�
�The� NCP81081� prevents� cross� conduction� by� monitoring�
�the� status� of� the� MOSFETs� and� applying� the� appropriate�
�amount� of� “dead� ?� time”� or� the� time� between� the� turn� off� of�
�one� MOSFET� and� the� turn� on� of� the� other� MOSFET.�
�When� the� PWM� input� pin� goes� high,� the� gate� of� the�
�low� ?� side� MOSFET� (GL� pin)� will� go� low� after� a� propagation�
�delay� (tpdlGL).� The� time� it� takes� for� the� low� ?� side� MOSFET�
�to� turn� off� (tfGL)� is� dependent� on� the� total� charge� on� the�
�low� ?� side� MOSFET� gate.� The� NCP81081� monitors� the� gate�
�voltage� of� both� MOSFETs� and� the� switchnode� voltage� to�
�determine� the� conduction� status� of� the� MOSFETs.� Once� the�
�low� ?� side� MOSFET� is� turned� off� an� internal� timer� will� delay�
�(tpdhGH)� the� turn� on� of� the� high� ?� side� MOSFET.�
�Likewise,� when� the� PWM� input� pin� goes� low,� the� gate� of�
�the� high� ?� side� MOSFET� (GH� pin)� will� go� low� after� the�
�propagation� delay� (tpdlGH).� The� time� to� turn� off� the�
�high� ?� side� MOSFET� (tfGH)� is� dependent� on� the� total� gate�
�charge� of� the� high� ?� side� MOSFET.� A� timer� will� be� triggered�
�once� the� high� ?� side� MOSFET� has� stopped� conducting,� to�
�delay� (tpdhGL)� the� turn� on� of� the� low� ?� side� MOSFET.�
�Th� ermal� Warning� /� Thermal� Shutdown�
�When� the� temperature� of� the� driver� reaches� 150� °� C,� the�
�THWN� pin� will� be� pulled� low� indicating� a� thermal� warning.�
�At� this� point,� the� part� continues� to� function� normally.� When�
�the� temperature� drops� below� 135� °� C,� the� THWN� will� go�
�high.�
�If� the� driver� temperature� exceeds� 180� °� C,� the� part� will�
�enter� thermal� shutdown� and� turn� off� both� MOSFETs.� Once�
�the� temperature� falls� below� 155� °� C,� the� part� will� resume�
�normal� operation.� The� THWN� pin� has� a� maximum� current�
�capability� of� 30� mA.�
�Power� Supply� Decoupling�
�The� NCP81081� can� source� and� sink� relatively� large�
�current� to� the� gate� pins� of� the� MOSFETs.� In� order� to�
�maintain� a� constant� and� stable� supply� voltage� (VCIN)� a� low�
�ESR� capacitor� should� be� placed� near� the� power� and� ground�
�pins.� A� 1� m� F� to� 4.7� m� F� multi� layer� ceramic� capacitor�
�(MLCC)� is� usually� sufficient.�
�Bootstrap� Circuit�
�The� bootstrap� circuit� uses� a� charge� storage� capacitor�
�(C� BST� )� and� the� internal� diode.� The� bootstrap� capacitor� must�
�have� a� voltage� rating� that� is� able� to� withstand� twice� the�
�maximum� supply� voltage.� A� minimum� 50� V� rating� is�
�recommended.� A� bootstrap� capacitance� greater� than� 100� nF�
�and� a� minimum� 50� V� rating� is� recommended.� A� good� quality�
�ceramic� capacitor� should� be� used.�
�will� cause� a� decrease� in� the� power� conversion� efficiency.�
�http://onsemi.com�
�5�
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