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�LSN2-T/30-D12� Series�
�DOSA-SIP,� 30A� POL� DC/DC� Converters�
�Start� Up� Considerations�
�When� power� is� ?rst� applied� to� the� DC/DC� converter,� operation� is� different� than�
�when� the� converter� is� running� and� stabilized.� There� is� some� risk� of� start� up�
�dif?culties� if� you� do� not� observe� several� application� features.� Lower� output�
�voltage� converters� may� have� more� problems� here� since� they� tend� to� have�
�higher� output� currents.� Operation� is� most� critical� with� any� combination� of� the�
�following� external� factors:�
�1� –� Low� initial� input� line� voltage� and/or� poor� regulation� of� the� input� source.�
�2� –� Full� output� load� current� on� lower� output� voltage� converters.�
�3� –� Slow� slew� rate� of� input� voltage.�
�4� –� Longer� distance� to� input� voltage� source� and/or� higher� external� input�
�source� impedance.�
�5� –� Limited� or� insuf?cient� ground� plane.� External� wiring� that� is� too� small.�
�6� –� Too� small� external� input� capacitance.� Too� high� ESR.�
�7� –� High� output� capacitance� causing� a� start� up� charge� overcurrent� surge.�
�For� many� systems,� the� CPU� and� memory� must� be� powered� up,� boot-strap�
�loaded� and� stabilized� before� the� I/O� section� is� turned� on.� This� avoids� uncom-�
�manded� data� bytes� being� transferred,� compromising� an� already-running�
�external� network� or� placing� the� I/O� section� in� an� unde?ned� mode.� Or� it� keeps�
�bad� commands� out� of� disk� and� peripheral� controllers� until� they� are� ready� to� go�
�to� work.�
�Another� goal� for� staggered� power-up� is� to� avoid� an� oversize� load� applied� to�
�the� master� source� all� at� once.� A� more� serious� reason� to� manage� the� timing� and�
�voltage� differences� is� to� avoid� either� a� latchup� condition� in� programmable� logic�
�(a� latchup� might� ignore� commands� or� would� respond� improperly� to� them)� or� a�
�high� current� startup� situation� (which� may� damage� on-board� circuits).� And� on�
�the� power� down� phase,� inappropriate� timing� or� voltages� can� cause� interface�
�logic� to� send� a� wrong� “epitaph”� command� (Figure� 5).�
�+12Vdc�
�8� –� Output� loads� with� excessive� inductive� reactance� or� constant� current�
�characteristics.�
�“ALL� ON”�
�+V� IN�
�POL�
�+5V�
�If� the� input� voltage� is� already� at� the� low� limit� before� power� is� applied,� the�
�start� up� surge� current� may� instantaneously� reduce� the� voltage� at� the� input�
�ENABLE�
�A�
�LOADS�
�terminals� to� below� the� speci?ed� minimum� voltage.� Even� if� this� voltage� depres-�
�sion� is� very� brief,� this� may� interfere� with� the� on-board� controller� and� possibly�
�CPU�
�SEQUENCING�
�CONTROLLER�
�+V� IN�
�POL�
�+3.3V�
�cause� a� failed� start.� Or� the� converter� may� start� but� the� input� current� load� will�
�now� drive� the� input� voltage� below� its� running� low� limit� and� the� converter� will�
�shut� down.�
�If� you� measure� the� input� voltage� before� start� up� with� a� Digital� Voltmeter� (DVM),�
�the� voltage� may� appear� to� be� adequate.� Limited� external� capacitance� and/or�
�too� high� a� source� impedance� may� cause� a� short� downward� spike� at� power� up,�
�causing� an� instantaneous� voltage� drop.� Use� an� oscilloscope� not� a� DVM� to� observe�
�this� spike.� The� converter’s� soft-start� controller� is� sensitive� to� input� voltage.� What�
�matters� here� is� the� actual� voltage� at� the� input� terminals� at� all� times.�
�STARTUP� SEQUENCE:�
�ENABLE�
�ENABLE�
�TO� OTHER� POLs�
�ON�
�B�
�LOADS�
�Symptoms� of� start-up� dif?culties� may� include� failed� started,� output� oscilla-�
�tion� or� brief� start� up� then� overcurrent� shutdown.� Since� the� input� voltage� is� never�
�POL� A�
�OFF�
�Settling�
�Delay�
�ON�
�absolutely� constant,� the� converter� may� start� up� at� some� times� and� not� at� others.�
�LSN2-T/30-D12� Power� Sequencing�
�In� older� systems,� one� master� switch� simultaneously� turned� on� the� power� for� all�
�parts� of� an� application.� Many� modern� systems� require� multiple� supply� voltages�
�for� different� on-board� sections.� Typically� the� CPU� or� microcontroller� needs�
�POL� B�
�OFF�
�TIME�
�1.8?Volts� or� lower.� Memory� (particularly� DDR)� may� use� 1.8� to� 2.5� Volts.� Inter-�
�face� “glue”� and� “chipset”� logic� might� use� +3.3Vdc� power� while� Input/Output�
�subsystems� may� need� +5V.� Finally,� peripherals� use� 5V� and/or� 12V.�
�Timing� is� Everything�
�This� mix� of� system� voltages� is� being� distributed� by� several� local� power� solu-�
�tions� including� Point-of-load� (POL)� DC/DC� converters� and� sometimes� a� linear�
�Figure� 5.� Power� Up/Down� Sequencing� Controller�
�Two� Approaches�
�There� are� two� ways� to� manage� these� timing� and� voltage� differences.� Either� the�
�power� up/down� sequence� can� be� controlled� by� discrete� On/Off� logic� controls�
�for� each� power� supply� (see� Figure� 5).� Or� the� power� up/down� cycle� is� set� by�
�Sequencing� or� Tracking� circuits.� Some� systems� combine� both� methods.�
�regulator,� all� sourced� from� a� master� AC� power� supply.� While� this� mix� of� volt-�
�ages� is� challenging� enough,� a� further� dif?culty� is� the� start-up� and� shutdown�
�timing� relationship� between� these� power� sources� and� relative� voltage� differ-�
�ences� between� them.�
�www.murata-ps.com/support�
�MDC_LSN2-T/30-D12� Series.C01� Δ� Page� 8� of� 16�
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