参数资料
| 型号: | NCV4264-2ST50T3G |
| 厂商: | ON Semiconductor |
| 文件页数: | 8/10页 |
| 文件大小: | 0K |
| 描述: | IC REG LDO 5V .1A SOT-223 |
| 标准包装: | 1 |
| 稳压器拓扑结构: | 正,固定式 |
| 输出电压: | 5V |
| 输入电压: | 最高 45 V |
| 电压 - 压降(标准): | 0.27V @ 100mA |
| 稳压器数量: | 1 |
| 电流 - 输出: | 100mA |
| 电流 - 限制(最小): | 150mA |
| 工作温度: | -40°C ~ 150°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | TO-261-4,TO-261AA |
| 供应商设备封装: | SOT-223 |
| 包装: | 标准包装 |
| 其它名称: | NCV4264-2ST50T3GOSDKR |
��
�
�NCV4264� ?� 2�
�(150� °� C� *� TA)�
�P� q� JA� +�
�R� q� JA� +� R� q� JC� )� R� q� CS� )� R� q� SA�
�Circuit� Description�
�The� NCV4264� ?� 2� is� functionally� and� pin� for� pin�
�compatible� with� NCV4264� with� a� lower� quiescent� current�
�consumption.� Its� output� stage� supplies� 100� mA� with�
�$� 2.0%� output� voltage� accuracy.�
�Maximum� dropout� voltage� is� 500� mV� at� 100� mA� load�
�current.� It� is� internally� protected� against� 45� V� input�
�transients,� input� supply� reversal,� output� overcurrent� faults,�
�and� excess� die� temperature.� No� external� components� are�
�required� to� enable� these� features.�
�Regulator�
�The� error� amplifier� compares� the� reference� voltage� to� a�
�sample� of� the� output� voltage� (V� OUT� )� and� drives� the� base� of�
�a� PNP� series� pass� transistor� by� a� buffer.� The� reference� is� a�
�bandgap� design� to� give� it� a� temperature� ?� stable� output.�
�Saturation� control� of� the� PNP� is� a� function� of� the� load�
�current� and� input� voltage.� Oversaturation� of� the� output�
�power� device� is� prevented,� and� quiescent� current� in� the�
�ground� pin� is� minimized.�
�Regulator� Stability� Considerations�
�The� input� capacitor� C� I1� in� Figure� 2� is� necessary� for�
�compensating� input� line� reactance.� Possible� oscillations�
�caused� by� input� inductance� and� input� capacitance� can� be�
�damped� by� using� a� resistor� of� approximately� 1� W� in� series�
�with� C� I2� .� The� output� or� compensation� capacitor,� C� OUT�
�helps� determine� three� main� characteristics� of� a� linear�
�regulator:� startup� delay,� load� transient� response� and� loop�
�stability.� Tantalum,� aluminum� electrolytic,� film,� or�
�ceramic� capacitors� are� all� acceptable� solutions,� however,�
�attention� must� be� paid� to� ESR� constraints.� The� capacitor�
�manufacturer� ’s� data� sheet� usually� provides� this�
�information.� The� value� for� the� output� capacitor� C� OUT�
�shown� in� Figure� 2� should� work� for� most� applications;�
�however,� it� is� not� necessarily� the� optimized� solution.�
�Stability� is� guaranteed� at� values� of� C� Q� w� 10� m� F,� with� an�
�ESR� v� 9� W� for� the� 5.0� V� Version,� and� C� Q� w� 22� m� F� with�
�an� ESR� v� 16� W� for� the� 3.3� V� Version� within� the� operating�
�temperature� range.� Actual� limits� are� shown� in� a� graph� in� the�
�Typical� Performance� Characteristics� section.�
�Calculating� Power� Dissipation� in� a� Single� Output�
�Linear� Regulator�
�The� maximum� power� dissipation� for� a� single� output�
�regulator� (Figure� 3)� is:�
�PD(max)� +� VIN(max)� *� VOUT(min)� *� IQ(max)� )� VI(max)� *� IQ�
�(eq.� 1)�
�Where:�
�V� IN(max)� is� the� maximum� input� voltage,�
�V� OUT(min)� is� the� minimum� output� voltage,�
�I� Q(max)� is� the� maximum� output� current� for� the�
�application,� and� I� Q� is� the� quiescent� current� the� regulator�
�consumes� at� I� Q(max)� .� Once� the� value� of� P� D(max)� is� known,�
�the� maximum� permissible� value� of� R� q� JA� can� be� calculated:�
�(eq.� 2)�
�PD�
�The� value� of� R� q� JA� can� then� be� compared� with� those� in� the�
�package� section� of� the� data� sheet.� Those� packages� with�
�R� q� JA� ’s� 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.� The� current� flow� and� voltages� are� shown� in� the�
�Measurement� Circuit� Diagram.�
�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� :�
�(eq.� 3)�
�Where:�
�R� q� JC� =� the� junction� ?� to� ?� case� thermal� resistance,�
�R� q� CS� =� the� case� ?� to� ?� heat� sink� thermal� resistance,� and�
�R� q� SA� =� the� heat� sink� ?� to� ?� ambient� thermal� resistance.�
�R� q� JA� appears� in� the� package� section� of� the� data� sheet.�
�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�
�sinking� are� discussed� in� the� ON� Semiconductor� application�
�note� AN1040/D,� available� on� the� ON� Semiconductor�
�Website.�
�http://onsemi.com�
�8�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| NCV4264-2ST50T3G/H | 制造商:ON Semiconductor 功能描述: |
| NCV4264D50R2G | 功能描述:低压差稳压器 - LDO 5.0 V 100 MA LDO RoHS:否 制造商:Texas Instruments 最大输入电压:36 V 输出电压:1.4 V to 20.5 V 回动电压(最大值):307 mV 输出电流:1 A 负载调节:0.3 % 输出端数量: 输出类型:Fixed 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:VQFN-20 |
| NCV4264ST33T3G | 功能描述:低压差稳压器 - LDO ULTRALOW IQ LW DRP RoHS:否 制造商:Texas Instruments 最大输入电压:36 V 输出电压:1.4 V to 20.5 V 回动电压(最大值):307 mV 输出电流:1 A 负载调节:0.3 % 输出端数量: 输出类型:Fixed 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:VQFN-20 |
| NCV4264ST50T3G | 功能描述:低压差稳压器 - LDO ANA ULTRA-LOW IQ LDO RoHS:否 制造商:Texas Instruments 最大输入电压:36 V 输出电压:1.4 V to 20.5 V 回动电压(最大值):307 mV 输出电流:1 A 负载调节:0.3 % 输出端数量: 输出类型:Fixed 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:VQFN-20 |
| NCV4266 | 制造商:ONSEMI 制造商全称:ON Semiconductor 功能描述:150 mA Low-Dropout Voltage Regulator with Enable |
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