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参数资料
| 型号: | MIC2090-2YM5 TR |
| 厂商: | Micrel Inc |
| 文件页数: | 16/23页 |
| 文件大小: | 0K |
| 描述: | IC DISTRIB SWITCH 50MA SOT23-5 |
| 标准包装: | 1 |
| 类型: | 高端开关 |
| 输出数: | 1 |
| Rds(开): | 1.2 欧姆 |
| 内部开关: | 是 |
| 电流限制: | 75mA |
| 输入电压: | 1.8 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | SC-74A,SOT-753 |
| 供应商设备封装: | SOT-23-5 |
| 包装: | 标准包装 |
| 其它名称: | 576-3964-6 |
��
�
�Micrel,� Inc.�
�During� an� overcurrent� or� short� circuit,� The� FAULT/� signal�
�asserts� after� a� brief� delay� period,� t� D_FAULT/� ,� in� order� to�
�filter� out� false� or� transient� over-current� conditions.�
�The� FAULT/� output� is� open-drain� and� must� be� pulled�
�HIGH� with� an� external� resistor.� The� FAULT/� signal� may�
�be� wire-OR’d� with� other� similar� outputs,� sharing� a� single�
�pull-up� resistor.�
�Power� Dissipation� and� Thermal� Shutdown�
�Thermal� shutdown� is� used� to� protect� the�
�MIC2090/MIC2091� switch� from� damage� should� the� die�
�temperature� exceed� a� safe� operating� temperature.�
�Thermal� shutdown� shuts� off� the� output� MOSFET� and�
�asserts� the� FAULT/� output� if� the� die� temperature�
�reaches� the� over-temperature� threshold,� T� OVERTEMP� .�
�The� switch� will� automatically� resume� operation� when� the�
�die� temperature� cools� down� to� 140°C.� If� resumed�
�operation� results� in� reheating� of� the� die,� another�
�shutdown� cycle� will� occur� and� the� switch� will� continue�
�cycling� between� ON� and� OFF� states� until� the� reason� for�
�the� overcurrent� condition� has� been� resolved.�
�Depending� upon� the� PCB� layout,� package� type,� ambient�
�temperature,� etc.,� hundreds� of� milliseconds� may� elapse�
�MIC2090/MIC2091�
�may� exceed� the� package� and� PCB’s� ability� to� cool� the�
�device� and� the� MIC2090/MIC2091� will� shut� down� and�
�signal� a� fault� condition.� Please� see� the� “Fault� Output”�
�description� for� more� details� on� the� FAULT/� output.�
�After� the� MIC2090/MIC2091� shuts� down,� and� cools,� it�
�will� re-start� itself� if� the� enable� signal� remains� true.�
�n� Figure� 2,� die� temperature� is� plotted� against� I� OUT�
�assuming� a� constant� ambient� temperature� of� 85°C� and� a�
�worst� case� internal� switch� on-resistance� (R� ON� ).� This� plot�
�is� valid� for� both� the� MIC2090� and� MIC2091.�
�Die� Temperature� vs.� Output� Current�
�(Ambient� Temperature� =� 85°C)�
�90�
�89�
�88�
�87�
�86�
�85�
�84�
�from� the� time� a� fault� occurs� to� the� time� the� output�
�MOSFET� will� be� shut� off.� This� delay� is� caused� because�
�83�
�0.01�
�0.02�
�0.03�
�0.04�
�0.05�
�0.06�
�0.07�
�0.08�
�0.09�
�0.1�
�of� the� time� it� takes� for� the� die� to� heat� after� the� fault�
�condition� occurs.�
�Power� dissipation� depends� on� several� factors� such� as�
�the� load,� PCB� layout,� ambient� temperature,� and� supply�
�voltage.� Calculation� of� power� dissipation� can� be�
�accomplished� by� Equation� 2:�
�I� OUT� (A)�
�Figure� 2.� Die� Temperature� vs.� I� OUT�
�I� LIMIT� vs.� I� OUT� Measured� (-1� version� only)�
�P� D� =� R� DS(ON)� � (I� OUT� )�
�2�
�Eq.2�
�When� the� MIC2090/MIC2091� is� current� limiting,� it� is�
�designed� to� act� as� a� constant� current� source� to� the� load.�
�As� the� load� tries� to� pull� more� than� the� maximum� current,�
�To� relate� this� to� junction� temperature,� Equation� 3� can� be�
�used:�
�V� OUT� drops� and� the� input� to� output� voltage� differential�
�increases.� When� V� OUT� drops� below� 1.8V,� then� the� output�
�switch� momentarily� turns� off� to� insure� the� internal�
�T� J� =� P� D� ×� R� θ� (J-A)� +� T� A�
�Eq.� 3�
�MOSFET� switch� is� not� damaged� by� a� very� fast� short�
�circuit� event.�
�Where:�
�T� J� =� Junction� Temperature�
�T� A� =� Ambient� Temperature�
�R� θ� (J-A)� is� the� thermal� resistance� of� the� package.�
�In� normal� operation,� excessive� switch� heating� is� most�
�often� caused� by� an� output� short� circuit.� If� the� output� is�
�shorted,� when� the� switch� is� enabled,� the�
�MIC2090/MIC2091� switch� limits� the� output� current� to� the�
�maximum� value.� The� heat� generated� by� the� power�
�dissipation� of� the� switch� continuously� limiting� the� current�
�When� measuring� I� OUT� in� an� overcurrent� condition,� it� is�
�important� to� remember� voltage� dependence,� otherwise�
�the� measurement� data� may� appear� to� indicate� a� problem�
�when� none� really� exists.� This� voltage� dependence� is�
�illustrated� in� Figures� 3� and� 4.�
�In� Figure� 3,� output� current� is� measured� as� V� OUT� is� pulled�
�below� V� IN� ,� with� the� test� terminating� when� V� OUT� is� 2.5V�
�below� V� IN� .� Observe� that� once� I� LIMIT� is� reached� I� OUT�
�remains� constant� throughout� the� remainder� of� the� test.�
�Figure� 4� repeats� this� test� but� simulates� operation� deeper�
�into� an� overcurrent� condition.� When� V� OUT� drops� below�
�1.8V,� the� switch� turns� off� for� a� few� microseconds� before�
�turning� back� on.�
�July� 2011�
�16�
�M9999-070611-B�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| MIC2091-1YM5 | 制造商:MICREL 制造商全称:Micrel Semiconductor 功能描述:Current Limiting Power Distribution Switches |
| MIC2091-1YM5 TR | 功能描述:电源开关 IC - USB 100mA Current Limiting Power Distribution Switch RoHS:否 制造商:Micrel 电源电压-最小:2.7 V 电源电压-最大:5.5 V 最大工作温度:+ 85 C 最小工作温度:- 40 C 封装 / 箱体:SOIC-8 封装:Tube |
| MIC2091-1YM5TR | 制造商:Micrel 功能描述:Power Switch 100mA 1.8 5.5V 5 Pin SOT23 |
| MIC2091-1YM5-TR | 功能描述:IC DISTRIBUTION SW 100MA SOT23-5 制造商:microchip technology 系列:- 包装:剪切带(CT) 零件状态:有效 开关类型:通用 输出数:1 比率 - 输入:输出:1:1 输出配置:高端 输出类型:P 通道 接口:开/关 电压 - 负载:1.8 V ~ 5.5 V 电压 - 电源(Vcc/Vdd):不需要 电流 - 输出(最大值):100mA 导通电阻(典型值):700 毫欧 输入类型:非反相 特性:状态标志 故障保护:限流(固定),超温,反向电流,UVLO 工作温度:-40°C ~ 125°C (TJ) 封装/外壳:SC-74A,SOT-753 供应商器件封装:SOT-23-5 标准包装:1 |
| MIC2091-2YM5 | 制造商:MICREL 制造商全称:Micrel Semiconductor 功能描述:Current Limiting Power Distribution Switches |
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