参数资料
| 型号: | QME48T20120-PGB0 |
| 厂商: | Power-One |
| 文件页数: | 8/14页 |
| 文件大小: | 0K |
| 描述: | DC/DC QUARTER BRICK 12V OUT |
| 标准包装: | 100 |
| 系列: | * |
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�QME48T20120� DC-DC� Converter� Data� Sheet�
�36-75� VDC� Input;� 12� VDC� @� 20� A� Output�
�Data� Sheet�
�Characterization�
�General� Information�
�The� converter� has� been� characterized� for� many�
�operational� aspects,� to� include� thermal� derating�
�(maximum� load� current� as� a� function� of� ambient�
�temperature� and� airflow)� for� vertical� and� horizontal�
�mountings,� efficiency,� startup� and� shutdown�
�parameters,� output� ripple� and� noise,� transient�
�response� to� load� step-change,� overload,� and� short�
�circuit.�
�The� following� pages� contain� specific� plots� or�
�waveforms� associated� with� the� converter.� Additional�
�comments� for� specific� data� are� provided� below.�
�Test� Conditions�
�All� data� presented� were� taken� with� the� converter�
�soldered� to� a� test� board,� specifically� a� 0.060”� thick�
�printed� wiring� board� (PWB)� with� four� layers.� The� top�
�and� bottom� layers� were� not� metalized.� The� two� inner�
�layers,� comprised� of� two-ounce� copper,� were� used� to�
�provide� traces� for� connectivity� to� the� converter.�
�The� lack� of� metalization� on� the� outer� layers� as� well�
�as� the� limited� thermal� connection� ensured� that� heat�
�transfer� from� the� converter� to� the� PWB� was�
�minimized.� This� provides� a� worst-case� but� consistent�
�scenario� for� thermal� derating� purposes.�
�All� measurements� requiring� airflow� were� made� in� the�
�vertical� and� horizontal� wind� tunnel� using� Infrared� (IR)�
�thermography� and� thermocouples� for� thermometry.�
�Ensuring� components� on� the� converter� do� not�
�exceed� their� ratings� is� important� to� maintaining� high�
�reliability.� If� one� anticipates� operating� the� converter�
�at� or� close� to� the� maximum� loads� specified� in� the�
�derating� curves,� it� is� prudent� to� check� actual�
�operating� temperatures� in� the� application.�
�Thermographic� imaging� is� preferable;� if� this�
�capability� is� not� available,� then� thermocouples� may�
�be� used.� The� use� of� AWG� #40� gauge� thermocouples�
�is� recommended� to� ensure� measurement� accuracy.�
�Careful� routing� of� the� thermocouple� leads� will� further�
�minimize� measurement� error.� Refer� to� Fig.� H� for� the�
�optimum� measuring� thermocouple� location.�
�Fig.� H:� Location� of� the� thermocouple� for� thermal� testing.�
�Thermal� Derating�
�Load� current� vs.� ambient� temperature� and� airflow�
�rates� are� given� in� Fig.� 1� and� Fig.� 2� for� vertical� and�
�horizontal� converter� mountings.� Ambient� temperature�
�was� varied� between� 25� °C� and� 85� °C,� with� airflow�
�rates� from� 30� to� 500� LFM� (0.15� to� 2.5� m/s).�
�For� each� set� of� conditions,� the� maximum� load� current�
�was� defined� as� the� lowest� of:�
�(i)� The� output� current� at� which� any� FET� junction�
�temperature� does� not� exceed� a� maximum� specified�
�temperature� of� 125� °C� as� indicated� by� the�
�thermographic� image,� or�
�(ii)� The� nominal� rating� of� the� converter� (20� A).�
�During� normal� operation,� derating� curves� with�
�maximum� FET� temperature� less� or� equal� to� 125� °C�
�should� not� be� exceeded.� Temperature� at� the�
�thermocouple� location� shown� in� Fig.� H� should� not�
�exceed� 125� °C� in� order� to� operate� inside� the� derating�
�curves.�
�Efficiency�
�Fig.� 3� shows� the� efficiency� vs.� load� current� plot� for�
�ambient� temperature� of� 25� oC,� airflow� rate� of� 300� LFM�
�(1.5� m/s)� with� vertical� mounting� and� input� voltages� of�
�36� V,� 48� V� and� 72� V.� Also,� a� plot� of� efficiency� vs.� load�
�current,� as� a� function� of� ambient� temperature� with�
�Vin� =� 48� V,� airflow� rate� of� 200� LFM� (1� m/s)� with�
�vertical� mounting� is� shown� in� Fig.� 4.�
�Power� Dissipation�
�Fig.� 5� shows� the� power� dissipation� vs.� load� current�
�plot� for� Ta� =� 25� oC,� airflow� rate� of� 300� LFM� (1.5� m/s)�
�with� vertical� mounting� and� input� voltages� of� 36� V,� 48� V�
�and� 72� V.� Also,� a� plot� of� power� dissipation� vs.� load�
�current,� as� a� function� of� ambient� temperature� with�
�Vin� =� 48� V,� airflow� rate� of� 200� LFM� (1� m/s)� with�
�vertical� mounting� is� shown� in� Fig.� 6.�
�Startup�
�Output� voltage� waveforms,� during� the� turn-on�
�transient� using� the� ON/OFF� pin� for� full� rated� load�
�currents� (resistive� load)� are� shown� without� and� with�
�external� load� capacitance� in� Figs.� 7-8,� respectively.�
�Ripple� and� Noise�
�Fig.� 11� show� the� output� voltage� ripple� waveform,�
�measured� at� full� rated� load� current� with� a� 10� μF�
�tantalum� and� 1� μF� ceramic� capacitor� across� the�
�output.� Note� that� all� output� voltage� waveforms� are�
�measured� across� a� 1� μF� ceramic� capacitor.�
�The� input� reflected� ripple� current� waveforms� are�
�obtained� using� the� test� setup� shown� in� Fig� 12.� The�
�corresponding� waveforms� are� shown� in� Figs.� 13-14.�
�ZD-01742� Rev� 3.4,� 21-Jan-10�
�www.power-one.com�
�Page� 8� of� 14�
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