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�
�AN813�
�Vishay� Siliconix�
�R� q� JA�
�R� q� JA�
�P� D� +� 150� C� o� *� 25� C�
�P� D� +� 150� C� o� *� 60� C�
�P� D� +� 500� mW�
�THERMAL� PERFORMANCE�
�Junction-to-Foot� Thermal� Resistance�
�(the� Package� Performance)�
�Thermal� performance� for� the� 3-pin� SC-70� measured� as�
�junction-to-foot� thermal� resistance� is� 285� _� C/W� typical,�
�340� _� C/W� maximum.� Junction-to-foot� thermal� resistance� for�
�the� 6-pin� SC70-6� is� 105� _� C/W� typical,� 130� _� C/W� maximum� —�
�a� nearly� two-thirds� reduction� compared� with� the� 3-pin� device.�
�The� “foot”� is� the� drain� lead� of� the� device� as� it� connects� with� the�
�body.� This� improved� performance� is� obtained� by� the� increase�
�in� drain� leads� from� one� to� four� on� the� 6-pin� SC-70.� Note� that�
�these� numbers� are� somewhat� higher� than� other� LITTLE� FOOT�
�devices� due� to� the� limited� thermal� performance� of� the� Alloy� 42�
�lead-frame� compared� with� a� standard� copper� lead-frame.�
�Junction-to-Ambient� Thermal� Resistance�
�(dependent� on� PCB� size)�
�The� typical� R� θ� JA� for� the� single� 3-pin� SC-70� is� 360� _� C/W� steady�
�state,� compared� with� 180� _� C/W� for� the� 6-pin� SC-70.� Maximum�
�ratings� are� 430� _� C/W� for� the� 3-pin� device� versus� 220� _� C/W� for�
�the� 6-pin� device.� All� figures� are� based� on� the� 1-inch� square�
�FR4� test� board.The� following� table� shows� how� the� thermal�
�resistance� impacts� power� dissipation� for� the� two� different�
�pin-outs� at� two� different� ambient� temperatures.�
�SC-70� (6-PIN)�
�Room� Ambient� 25� _� C� Elevated� Ambient� 60� _� C�
�T� J(max)� *� T� A� T� J(max)� *� T� A�
�P� D� +� P� D� +�
�o� o� o� o�
�180� C� W� 180� C� W�
�P� D� +� 694� mW�
�NOTE:� Although� they� are� intended� for� low-power� applications,�
�devices� in� the� 6-pin� SC-70� will� handle� power� dissipation� in�
�excess� of� 0.5� W.�
�Testing�
�To� aid� comparison� further,� Figures� 3� and� 4� illustrate�
�single-channel� SC-70� thermal� performance� on� two� different�
�board� sizes� and� two� different� pad� patterns.� The� results� display�
�the� thermal� performance� out� to� steady� state� and� produce� a�
�graphic� account� of� the� thermal� performance� variation� between�
�the� two� packages.� The� measured� steady� state� values� of� R� θ� JA�
�for� the� single� 3-pin� and� 6-pin� SC-70� are� as� follows:�
�LITTLE� FOOT� SC-70�
�3-Pin�
�6-Pin�
�SC-70� (3-PIN)�
�1)� Minimum� recommended� pad� pattern�
�(see� Figure� 4)� on� the� EVB.�
�410.31� _� C/W�
�329.7� _� C/W�
�Room� Ambient� 25� _� C�
�Elevated� Ambient� 60� _� C�
�2)� Industry� standard� 1”� square� PCB� with�
�maximum� copper� both� sides.�
�360� _� C/W�
�211.8� _� C/W�
�R� q� JA�
�P� D� +� 150� C� o� *� 25� C�
�R� q� JA�
�P� D� +� 150� C� o� *� 60� C�
�T� J(max)� *� T� A�
�P� D� +�
�o� o�
�360� C� W�
�P� D� +� 347� mW�
�T� J(max)� *� T� A�
�P� D� +�
�o� o�
�360� C� W�
�P� D� +� 250� mW�
�The� results� show� that� designers� can� reduce� thermal�
�resistance� R� θ� JA� on� the� order� of� 20%� simply� by� using� the� 6-pin�
�device� rather� than� the� 3-pin� device.� In� this� example,� a� 80� _� C/W�
�reduction� was� achieved� without� an� increase� in� board� area.� If�
�increasing� board� size� is� an� option,� a� further� 118� _� C/W� reduction�
�could� be� obtained� by� utilizing� a� 1-inch� square� PCB� area.�
�400�
�320�
�240�
�3-pin�
�6-pin�
�400�
�320�
�240�
�3-pin�
�6-pin�
�160�
�80�
�0�
�0.5� in� x� 0.6� in� EVB�
�160�
�80�
�0�
�1”� Square� FR4� PCB�
�10� -5� 10� -4�
�10� -3�
�10� -2�
�10� -1�
�1�
�10�
�100�
�1000�
�10� -5� 10� -4�
�10� -3�
�10� -2�
�10� -1�
�1�
�10�
�100�
�1000�
�Time� (Secs)�
�Time� (Secs)�
�FIGURE� 3.�
�www.vishay.com�
�2�
�Comparison� of� SC70-3� and� SC70-6� on� EVB�
�FIGURE� 4.�
�Comparison� of� SC70-3� and� SC70-6� on� 1”�
�Square� FR4� PCB�
�Document� Number:� 71236�
�12-Dec-03�
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