参数资料
| 型号: | NCP5318FTR2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 26/32页 |
| 文件大小: | 0K |
| 描述: | IC CTLR CPU 2/3/4 PHASE 32-LQFP |
| 产品变化通告: | Product Obsolescence 08/Apr/2011 |
| 标准包装: | 1 |
| 应用: | 控制器,CPU |
| 输入电压: | 9.5 V ~ 13.2 V |
| 输出数: | 4 |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-LQFP |
| 供应商设备封装: | 32-LQFP(7x7) |
| 包装: | 剪切带 (CT) |
| 其它名称: | NCP5318FTR2GOSCT |
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�NCP5318�
�As� with� any� power� design,� proper� laboratory� testing�
�should� be� performed� to� insure� the� design� will� dissipate� the�
�required� power� under� worst� case� operating� conditions.�
�Variables� considered� during� testing� should� include�
�maximum� ambient� temperature,� minimum� airflow,�
�maximum� input� voltage,� maximum� loading� and� component�
�variations� (i.e.,� worst� case� MOSFET� R� DS(on)� ).� Also,� the�
�inductors� and� capacitors� share� the� MOSFET’s� heatsinks� and�
�will� add� heat� and� raise� the� temperature� of� the� circuit� board�
�and� MOSFET.� For� any� new� design,� it� is� advisable� to� have� as�
�much� heatsink� area� as� possible.� All� too� often,� new� designs� are�
�found� to� be� too� hot� and� require� re� ?� design� to� add� heatsinking.�
�7.� Error� Amplifier� Tuning�
�The� high� frequency� gain� of� the� voltage� feedback� loop�
�affects� transient� response� and� control� loop� stability.� This�
�loop� gain� can� be� adjusted� by� changing� the� Error� Amplifier’s�
�high� frequency� gain,� which� is� done� by� increasing� or�
�decreasing� the� Error� Amplifier� output� loading� capacitor�
�(C� AMP� ).� The� Error� Amplifier� has� a� transconductance�
�characteristic� (amplifier� output� current� is� proportional� to�
�amplifier� input� voltage),� causing� amplifier� output� voltage� to�
�be� proportional� to� amplifier� output� load� impedance.�
�If� C� AMP� is� too� large,� the� loop� gain� at� high� frequencies� will�
�be� too� low,� and� the� converter� output� voltage� may� exhibit� an�
�underdamped� response� to� a� load� transient.� On� the� other�
�hand,� if� C� AMP� is� too� small,� there� will� be� too� much� loop� gain�
�at� high� frequencies,� which� may� decrease� converter� output�
�voltage� stability.� For� initial� prototype� startup,� C� AMP� =� 10� nF�
�is� recommended.� When� reducing� C� AMP� ,� peak� ?� to� ?� peak�
�ripple� voltage� at� the� COMP� pin� should� remain� less� than�
�20� mVp� ?� p.� Excessive� ripple� at� the� COMP� pin� will�
�contribute� to� PWM� pulse� jitter.� In� general,� the� lowest� loop�
�gain� that� achieves� acceptable� transient� response� should� be�
�used.�
�LOAD CURRENT, 60 A/DIV�
�OUTPUT VOLTAGE, 50 mV/DIV�
�COMP� VOLTAGE,� 100� mV/DIV�
�20� m� S/DIV�
�Figure� 26.� Converter� Output� and� COMP� Response� to�
�a� Load� Step� (No� Droop).� 0� W� in� Series� with� C� AMP�
�Current�
�LOAD CURRENT, 60 A/DIV�
�OUTPUT VOLTAGE, 50 mV/DIV�
�COMP� VOLTAGE,� 100� mV/DIV�
�20� m� S/DIV�
�Figure� 27.� Converter� Output� and� COMP� Response� to�
�a� Load� Step� (No� Droop),� Resistance� in� Series� with�
�C� AMP�
�Adding� a� resistor� in� series� with� C� AMP� will� increase� control�
�loop� damping� in� response� to� load� transients� as� shown� in�
�Figures� 26� and� 27,� where� 1430� W� was� added� in� series� with�
�the� 1.8� nF� C� AMP� (Adaptive� Voltage� Positioning� not� used).�
�http://onsemi.com�
�26�
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