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参数资料
| 型号: | NCP5501DT50G |
| 厂商: | ON Semiconductor |
| 文件页数: | 9/13页 |
| 文件大小: | 0K |
| 描述: | IC REG LDO 5V .5A DPAK |
| 标准包装: | 75 |
| 稳压器拓扑结构: | 正,固定式 |
| 输出电压: | 5V |
| 输入电压: | 最高 16V |
| 电压 - 压降(标准): | 0.23V @ 500mA |
| 稳压器数量: | 1 |
| 电流 - 输出: | 500mA |
| 电流 - 限制(最小): | 500mA |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | TO-252-3,DPak(2 引线+接片),SC-63 |
| 供应商设备封装: | DPAK-3 |
| 包装: | 管件 |
| 其它名称: | NCP5501DT50G-ND NCP5501DT50GOS |
��
�
�NCP5500,� NCV5500,� NCP5501,� NCV5501�
�Calculating� Resistors� for� the� ADJ� Versions�
�The� adjustable� version� uses� feedback� resistors� to� adjust�
�the� output� to� the� desired� output� voltage.� With� V� out� connected�
�to� ADJ,� the� adjustable� version� will� regulate� at� 1.25� V�
� � 4.9%� (1250� � 61.25� mV).�
�Output� voltage� formula� with� an� external� resistor� divider:�
�Ripple� Rejection:� The� ratio� of� the� peak� ?� to� ?� peak� input� ripple�
�voltage� to� the� peak� ?� to� ?� peak� output� ripple� voltage.�
�Current� Limit:� Peak� current� that� can� be� delivered� to� the�
�output.�
�Calculating� Power� Dissipation�
�The� maximum� power� dissipation� for� a� single� output�
�V� out� +�
�1.25� V� *� 60E� ?� 9� @�
�(R� 1� @� R� 2)�
�(R� 1� )� R� 2� )�
�@�
�(R1� )� R2)�
�R� 2�
�regulator� (Figure� 21)� is:�
�(eq.� 1)�
�P� D(max)� +� V� in(max)� *� V� out(min)� I� out(max)� )� V� in(max)� I� GND�
�150� ?� C� *� T� A�
�R� q� JA� +�
�Where�
�R� 1� =� value� of� the� divider� resistor� connected� between� V� out�
�and� ADJ,�
�R� 2� =� value� of� the� divider� resistor� connected� between� ADJ�
�and� GND,�
�The� term� “1.25� V”� has� a� tolerance� of� � 4.9%;� the� term�
�“60E� ?� 9”� can� vary� in� the� range� 15E� ?� 9� to� 60E� ?� 9.�
�For� values� of� R� 2� less� than� 15� K� W� ,� the� term� within� brackets�
�(� [� ]� )� will� evaluate� to� less� than� 1� mV� and� can� be� ignored.� This�
�simplifies� the� output� voltage� formula� to:�
�V� out� =� 1.25� V� *� ((R1� +� R2)� /� R2))� with� a� tolerance� of� � 4.9%,�
�which� is� the� tolerance� of� the� 1.25� V� output� when� delivering�
�up� to� 500� mA� of� output� current.�
�DEFINITION� OF� TERMS�
�Dropout� Voltage:� The� input� ?� to� ?� output� voltage� differential�
�at� which� the� circuit� ceases� to� regulate� against� further�
�reduction� input� voltage.� Measured� when� the� output� voltage�
�has� dropped� 2%� relative� to� the� value� measured� at� nominal�
�input� voltage.� Dropout� voltage� is� dependent� upon� load�
�current� and� junction� temperature.�
�Input� Voltage:� The� DC� voltage� applied� to� the� input�
�terminals� with� respect� to� ground.�
�Line� Regulation:� The� change� in� output� voltage� for� a� change�
�in� the� input� voltage.� The� measurement� is� made� under�
�conditions� of� low� dissipation� or� by� using� pulse� techniques�
�such� that� the� average� chip� temperature� is� not� significantly�
�affected.�
�Load� Regulation:� The� change� in� output� voltage� for� a� change�
�in� load� current� at� constant� chip� temperature.� Pulse� loading�
�techniques� are� employed� such� that� the� average� chip�
�temperature� is� not� significantly� affected.�
�Quiescent� and� Ground� Current:� The� quiescent� current� is�
�the� current� which� flows� through� the� ground� when� the� LDO�
�operates� without� a� load� on� its� output:� internal� IC� operation,�
�bias,� etc.� When� the� LDO� becomes� loaded,� this� term� is� called�
�the� Ground� current.� It� is� actually� the� difference� between� the�
�input� current� (measured� through� the� LDO� input� pin)� and� the�
�output� current.�
�Where�
�V� in(max)� is� the� maximum� input� voltage,�
�V� out(min)� is� the� minimum� output� voltage,�
�I� out(max)� is� the� maximum� output� current� for� the� application,�
�I� GND� is� the� ground� current� at� I� out(max)� .�
�Once� the� value� of� P� D(max)� is� known,� the� maximum�
�permissible� value� of� R� q� JA� can� be� calculated:�
�(eq.� 2)�
�P� D�
�The� value� of� R� q� JA� can� then� be� compared� with� those� in� the�
�Thermal� Characteristics� table.� Those� packages� with� R� q� JA�
�less� than� the� calculated� value� in� Equation� 2� will� keep� the� die�
�temperature� below� 150� ?� C.�
�In� some� cases,� none� of� the� packages� will� be� sufficient� to�
�dissipate� the� heat� generated� by� the� IC,� and� an� external� heat�
�sink� will� be� required.�
�Heat� Sinks�
�A� heat� sink� effectively� increases� the� surface� area� of� the�
�package� to� improve� the� flow� of� heat� away� from� the� IC� and�
�into� the� surrounding� air.�
�Each� material� in� the� heat� flow� path� between� the� IC� and� the�
�outside� environment� will� have� a� thermal� resistance.� Like�
�series� electrical� resistances,� these� resistances� are� summed� to�
�determine� the� value� of� R� q� JA� :�
�R� q� JA� +� R� q� JC� )� R� q� CS� )� R� q� SA� (eq.� 3)�
�where�
�R� q� JC� is� the� junction� ?� to� ?� case� thermal� resistance,�
�R� q� CS� is� the� case� ?� to� ?� heatsink� thermal� resistance,�
�R� q� SA� is� the� heatsink� ?� to� ?� ambient� thermal� resistance.�
�R� q� JC� appears� in� the� Thermal� Characteristics� table.� Like�
�R� q� JA� ,� it� too� is� a� function� of� package� type.� R� q� CS� and� R� q� SA� are�
�functions� of� the� package� type,� heat� sink� and� the� interface�
�between� them.� These� values� appear� in� data� sheets� of� heat�
�sink� manufacturers.�
�Thermal,� mounting,� and� heat� sink� considerations� are�
�further� discussed� in� ON� Semiconductor� Application� Note�
�AN1040/D.�
�http://onsemi.com�
�9�
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