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�approximation,� the� clamping� voltage� due� to� the� charac-�
�PIN� Descriptions�
�SRDA05-4� and� SRDA12-4�
�PROTECTION� PRODUCTS�
�Applications� Information� (continued)�
�when� the� voltage� exceeds� the� V� of� the� diode.� At� first�
�F�
�teristics� of� the� protection� diodes� is� given� by:�
�V� =V� +V� (for� positive� duration� pulses)�
�C� CC� F�
�V� =� -V�
�C� F�
�(for� negative� duration� pulses)�
�However,� for� fast� rise� time� transient� events,� the�
�effects� of� parasitic� inductance� must� also� be� consid-�
�ered� as� shown� in� Figure� 2.� Therefore,� the� actual�
�clamping� voltage� seen� by� the� protected� circuit� will� be:�
�V� =� V� +� V� +� L� di�
�C� CC� F� P�
�ESD�
�/dt� (for� positive� duration� pulses)�
�Figure� 1� -� “Rail-To-Rail”� Protection� Topology�
�(First� Approximation)�
�V� =� -V� -� L� di�
�C� F� G�
�ESD�
�/dt�
�(for� negative� duration� pulses)�
�ESD� current� reaches� a� peak� amplitude� of� 30A� in� 1ns�
�for� a� level� 4� ESD� contact� discharge� per� IEC� 61000-4-2.�
�Therefore,� the� voltage� overshoot� due� to� 1nH� of� series�
�inductance� is:�
�V� =� L� di�
�P� ESD�
�/dt� =� 1X10� -9� (30� /� 1X10� -9� )� =� 30V�
�steering� diode� and� a� series� trace� inductance� of� 10nH.�
�Example:�
�Consider� a� V� =� 5V,� a� typical� V� of� 30V� (at� 30A)� for� the�
�CC� F�
�The� clamping� voltage� seen� by� the� protected� IC� for� a�
�for� the� V� of� discrete� diodes� to� exceed� the� damage�
�threshold� of� the� protected� IC.� This� is� due� to� the�
�positive 8kV (30A) ESD pulse will be:�
�V� =� 5V� +� 30V� +� (10nH� X� 30V/nH)� =� 335V�
�C�
�This� does� not� take� into� account� that� the� ESD� current� is�
�directed� into� the� supply� rail,� potentially� damaging� any�
�components� that� are� attached� to� that� rail.� Also� note�
�the� high� V� of� the� discrete� diode.� It� is� not� uncommon�
�F�
�F�
�relatively� small� junction� area� of� typical� discrete� compo-�
�nents.� It� is� also� possible� that� the� power� dissipation�
�capability� of� the� discrete� diode� will� be� exceeded,� thus�
�destroying� the� device.�
�The� RailClamp� is� designed� to� overcome� the� inherent�
�disadvantages� of� using� discrete� signal� diodes� for� ESD�
�suppression.� The� RailClamp’s� integrated� TVS� diode�
�helps� to� mitigate� the� effects� of� parasitic� inductance� in�
�Figure� 2� -� The� Effects� of� Parasitic� Inductance� When�
�Using� Discrete� Components� to� Implement� Rail-To-Rail�
�Protection�
�Figure� 3� -� Rail-To-Rail� Protection� Using�
�RailClamp� TVS� Arrays�
�?� 2007� Semtech� Corp.�
�6�
�www.semtech.com�
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