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参数资料
| 型号: | MIC47050YMT TR |
| 厂商: | Micrel Inc |
| 文件页数: | 11/16页 |
| 文件大小: | 0K |
| 描述: | IC REG LDO ADJ .5A 6MLF |
| 标准包装: | 1 |
| 稳压器拓扑结构: | 正,可调式 |
| 输出电压: | 0.4 V ~ 2 V |
| 输入电压: | 1 V ~ 3.6 V |
| 电压 - 压降(标准): | 0.044V @ 500mA |
| 稳压器数量: | 1 |
| 电流 - 输出: | 500mA |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 6-UFDFN 裸露焊盘,6-TMLF? |
| 供应商设备封装: | 6-TMLF?(2x2) |
| 包装: | 标准包装 |
| 其它名称: | 576-3963-6 |
��
�
�Micrel,� Inc.�
�Power� Good� (PGOOD)�
�The� Power� Good� (PGOOD)� pin� is� an� open� drain� output�
�that� goes� low� when� the� output� voltage� (fixed� version)�
�drops� below� the� PGOOD� threshold� voltage.�
�The� pull-up� resistor� value� should� be� large� enough� to�
�guarantee� a� proper� “low”� voltage� when� the� PGOOD� pin�
�pulls� low.� The� PGOOD� low� voltage� is� typically� 0.1V� at�
�MIC47050�
�T� J(MAX)� =� 125°C,� the� maximum� junction� temperature� of�
�the� die.�
�θ� JA� thermal� resistance� =� 90°C/W.�
�Table� 1� shows� junction-to-ambient� thermal� resistance� for�
�the� MIC47050� in� the� MLF� ?� or� Thin� MLF� ?� package.�
�250μA� current.� A� 10k� ?� resistor� or� greater� is�
�recommended� when� pulling� up� to� 3.3V� bias.�
�Package�
�θ� JA� Recommended�
�Min.� Footprint�
�θ� JC�
�90°C/W�
�If� the� PGOOD� function� is� not� required,� the� PGOOD� pin�
�may� be� left� unconnected.�
�Thermal� Shutdown�
�The� MIC47050� has� an� internal� over-temperature�
�6-pin� 2mm� x� 2mm� MLF� ?� 90°C/W�
�6-pin� 2mm� x� 2mm�
�Thin� MLF� ?�
�Table� 1.� Thermal� Resistance�
�45°C/W�
�45°C/W�
�protection� feature.� This� feature� is� for� protection� only.�
�The� device� should� never� be� intentionally� operated� near�
�this� temperature� as� this� may� reduce� long� term� reliability.�
�The� device� will� turn� off� when� the� over-temperature�
�threshold� is� exceeded.� A� 20°C� hysteresis� is� built� in� to�
�allow� the� device� to� cool� before� turning� back� on.�
�Thermal� Considerations�
�The� MIC47050� is� designed� to� provide� 0.5A� of� continuous�
�current� in� a� very� small� package.� Maximum� ambient�
�operating� temperature� can� be� calculated� based� on� the�
�output� current� and� the� voltage� drop� across� the� part.�
�Given� that� the� input� voltage� is� 1.8V,� the� output� voltage� is�
�1.2V� and� the� output� current� is� 0.5A.� The� actual� power�
�dissipation� of� the� regulator� circuit� can� be� determined�
�using� the� equation:�
�P� D� ?� ?� V� IN� ?� V� OUT� ?� ?� I� OUT� ?� V� IN� ?� I� GND� ?� V� BIAS� ?� I� BIAS�
�Because� this� device� is� CMOS,� the� ground� current� is�
�insignificant� for� power� dissipation� and� can� be� ignored� for�
�this� calculation.�
�P� D� ?� ?� 1.8V� ?� 1.2V� ?� ?� 0.5A� ?� 0.3W�
�To� determine� the� maximum� ambient� operating�
�temperature� of� the� package,� use� the� junction-to-ambient�
�thermal� resistance� of� the� device� and� the� following� basic�
�equation:�
�Substituting� P� D� for� P� D(max)� and� solving� for� the� ambient�
�operating� temperature� will� give� the� maximum� operating�
�conditions� for� the� regulator� circuit.� The� junction-to-�
�ambient� thermal� resistance� for� the� minimum� footprint� is�
�90°C/W.� The� maximum� power� dissipation� must� not� be�
�exceeded� for� proper� operation.� For� example,� when�
�operating� the� MIC47050-1.2YML� at� an� input� voltage� of�
�1.8V� and� a� 0.5A� load� with� a� minimum� footprint� layout,�
�the� maximum� ambient� operating� temperature� T� A� can� be�
�determined� as� follows:�
�T� A� ?� T� J(MAX)� ?� Θ� JA� ?� P� D(MAX)�
�T� A� ?� 125� ?� C� ?� 90� ?� C/W� ?� 0.3W�
�T� A� ?� 98� ?� C�
�Therefore,� a� 1.2V� application� with� 0.5A� of� output� current�
�can� accept� an� ambient� operating� temperature� of� 98°C� in�
�a� 2mm� x� 2mm� MLF� ?� or� Thin� MLF� ?� package.�
�Thermal� Measurements�
�Measuring� the� IC’s� case� temperature� is� recommended� to�
�insure� it� is� within� its� operating� limits.� Although� this� might�
�seem� like� a� very� elementary� task,� it� is� easy� to� get�
�erroneous� results.� The� most� common� mistake� is� to� use�
�the� standard� thermal� couple� that� comes� with� a� thermal�
�meter.� This� thermal� couple� wire� gauge� is� large,� typically�
�22� gauge,� and� behaves� like� a� heatsink,� resulting� in� a�
�lower� case� measurement.�
�Two� methods� of� temperature� measurement� are� using� a�
�P� D(MAX)� ?�
�?� T� J(MAX)� ?� T� A� ?�
�?� ?�
�?� ?�
�?� Θ� JA� ?�
�smaller� thermal� couple� wire� or� an� infrared� thermometer.�
�If� a� thermal� couple� wire� is� used,� it� must� be� constructed�
�of� 36� gauge� wire� or� higher� (smaller� wire� size)� to�
�minimize� the� wire� heat-sinking� effect.�
�April� 2012�
�11�
�M9999-040312-B�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| MIC47053 | 制造商:MICREL 制造商全称:Micrel Semiconductor 功能描述:500mA Micropower ULDOa?¢ Linear Regulator |
| MIC47053YMT | 制造商:MICREL 制造商全称:Micrel Semiconductor 功能描述:500mA Micropower ULDOa?¢ Linear Regulator |
| MIC47053YMT T5 | 功能描述:线性稳压器 - 标准 500mA Adjustable Micropower ULDO Linear Regulator with Power Good in 2x2mm TMLF RoHS:否 制造商:STMicroelectronics 输出类型: 极性: 输出电压:1.8 V 输出电流:150 mA 负载调节: 最大输入电压:5.5 V 线路调整率: 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:SOT-323-5L |
| MIC47053YMT TR | 功能描述:低压差稳压器 - LDO 500mA Adjustable Micropower ULDO Linear Regulator with Power Good in 2x2mm TMLF 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 |
| MIC47053YMTT5 | 制造商:Micrel Inc 功能描述:LDO Adj Regulator 0.5A Vin 1.0-3.6V DFN8 |
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