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�NCP5304�
�APPLICATION� INFORMATION�
�Negative� Voltage� Safe� Operating� Area�
�When� the� driver� is� used� in� a� half� bridge� configuration,� it�
�is� possible� to� see� negative� voltage� appearing� on� the� bridge�
�pin� (pin� 6)� during� the� power� MOSFETs� transitions.� When�
�the� high� ?� side� MOSFET� is� switched� off,� the� body� diode� of�
�the� low� ?� side� MOSFET� starts� to� conduct.� The� negative�
�voltage� applied� to� the� bridge� pin� thus� corresponds� to� the�
�forward� voltage� of� the� body� diode.� However,� as� pcb� copper�
�tracks� and� wire� bonding� introduce� stray� elements�
�(inductance� and� capacitor),� the� maximum� negative� voltage�
�of� the� bridge� pin� will� combine� the� forward� voltage� and� the�
�oscillations� created� by� the� parasitic� elements.� As� any�
�CMOS� device,� the� deep� negative� voltage� of� a� selected� pin�
�can� inject� carriers� into� the� substrate,� leading� to� an� erratic�
�behavior� of� the� concerned� component.� ON� Semiconductor�
�Summary:�
�?� If� the� negative� pulse� characteristic� (negative� voltage�
�level� &� pulse� width)� is� above� the� curves� the� driver�
�runs� in� safe� operating� area.�
�?� If� the� negative� pulse� characteristic� (negative� voltage�
�level� and� pulse� width)� is� below� one� or� all� curves� the�
�driver� will� NOT� run� in� safe� operating� area.�
�Note,� each� curve� of� the� Figure� 48� represents� the� negative�
�voltage� and� width� level� where� the� driver� starts� to� fail� at� the�
�corresponding� die� temperature.�
�If� in� the� application� the� bridge� pin� is� too� close� of� the� safe�
�operating� limit,� it� is� possible� to� limit� the� negative� voltage�
�to� the� bridge� pin� by� inserting� one� resistor� and� one� diode� as�
�follows:�
�provides� characterization� data� of� its� half� ?� bridge� driver� to�
�show� the� maximum� negative� voltage� the� driver� can� safely�
�operate� with.� To� prevent� the� negative� injection,� it� is� the�
�designer� duty� to� verify� that� the� amount� of� negative� voltage�
�pertinent� to� his/her� application� does� not� exceed� the�
�characterization� curve� we� provide,� including� some� safety�
�margin.�
�In� order� to� estimate� the� maximum� negative� voltage�
�accepted� by� the� driver,� this� parameter� has� been�
�characterized� over� full� the� temperature� range� of� the�
�IN_LO�
�IN_Hi�
�0�
�V� c� c�
�1�
�2�
�3�
�4�
�D4�
�U2� MUR160�
�NCP5304�
�IN_LO� BOOT�
�IN_HI� DRV_HI�
�VCC� BRIDGE�
�GND� DRV_LO�
�8�
�7�
�6�
�5�
�C2�
�100n�
�R1�
�10R�
�Vbulk�
�M3�
�M4�
�component.� A� test� fixture� has� been� developed� in� which� we�
�purposely� negatively� bias� the� bridge� pin� during� the�
�freewheel� period� of� a� buck� converter.� When� the� upper� gate�
�voltage� shows� signs� of� an� erratic� behavior,� we� consider� the�
�limit� has� been� reached.�
�Figure� 48,� illustrates� the� negative� voltage� safe� operating�
�area.� Its� interpretation� is� as� follows:� assume� a� negative�
�10� V� pulse� featuring� a� 100� ns� width� is� applied� on� the� bridge�
�pin,� the� driver� will� work� correctly� over� the� whole� die�
�temperature� range.� Should� the� pulse� swing� to� ?� 20� V,�
�keeping� the� same� width� of� 100� ns,� the� driver� will� not� work�
�properly� or� will� be� damaged� for� temperatures� below�
�D1�
�MUR160�
�0�
�Figure� 49.� R1� and� D1� Improves� the� Robustness� of� the�
�Driver�
�R1� and� D1� should� be� placed� as� close� as� possible� of� the�
�driver.� D1� should� be� connected� directly� between� the� bridge�
�pin� (pin� 6)� and� the� ground� pin� (pin� 4).� By� this� way� the�
�negative� voltage� applied� to� the� bridge� pin� will� be� limited�
�by� D1� and� R1� and� will� prevent� any� wrong� behavior.�
�125� °� C.�
�http://onsemi.com�
�14�
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