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参数资料
| 型号: | MIC2091-2YM5 TR |
| 厂商: | Micrel Inc |
| 文件页数: | 15/23页 |
| 文件大小: | 0K |
| 描述: | IC DISTRIB SWITCH 150MA 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: | 150mA |
| 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: | 576-3965-6 |
��
�
�Micrel,� Inc.�
�Functional� Description�
�V� IN� and� V� OUT�
�V� IN� is� both� the� power� supply� connection� for� the� internal�
�circuitry� driving� the� switch� and� the� input� (source�
�connection)� of� the� power� MOSFET� switch.� V� OUT� is� the�
�drain� connection� of� the� power� MOSFET� and� supplies�
�power� to� the� load.� In� a� typical� circuit,� current� flows� from�
�MIC2090/MIC2091�
�Limitations� on� C� OUT�
�The� part� may� enter� current� limit� when� turning� on� with� a�
�large� output� capacitance,� which� is� an� acceptable�
�condition.� However,� if� the� part� remains� in� current� limit� for�
�a� time� greater� than� t� D_FAULT� ,� the� FAULT/� pin� will� assert�
�low.� The� maximum� value� of� C� OUT� may� be� approximated�
�by� Equation� 1:�
�V� IN� to� V� OUT� toward� the� load.�
�When� the� switch� is� disabled,� current� will� not� flow� to� the�
�load,� except� for� a� small� unavoidable� leakage� current� of� a�
�few� microamps� (forward� leakage� current).�
�C� OUT_MAX� =�
�I� LIMIT_MIN� � T� D_FAULT_MI N�
�V� IN_MAX�
�Eq.� 1�
�C� IN�
�A� minimum� 1� μ� F� bypass� capacitor� positioned� close� to� the�
�V� IN� and� GND� pins� of� the� switch� is� both� good� design�
�practice� and� required� for� proper� operation� of� the� switch.�
�This� will� control� supply� transients� and� ringing.� Without� a�
�sufficient� bypass� capacitor,� large� current� surges� or� a�
�short� may� cause� sufficient� ringing� on� V� IN� (from� supply�
�lead� inductance)� to� cause� erratic� operation� of� the�
�switch’s� control� circuitry.� For� best� performance,� place� a�
�ceramic� capacitor� next� to� the� IC.�
�An� additional� 10μF� (or� greater)� capacitor,� positioned�
�close� to� the� VIN� and� GND� pins� of� the� switch� is�
�necessary� if� the� distance� between� a� larger� bulk� capacitor�
�and� the� switch� is� greater� than� three� inches.� This�
�additional� capacitor� limits� input� voltage� transients� at� the�
�switch� caused� by� fast� changing� input� currents� that� occur�
�during� a� fault� condition,� such� as� current� limit� and� thermal�
�shutdown.�
�When� bypassing� with� capacitors� of� 10� μ� F� or� more,� it� is�
�good� practice� to� place� a� smaller� value� capacitor� in�
�parallel� with� the� larger� to� handle� the� high-frequency�
�components� of� any� line� transients.� Values� in� the� range� of�
�0.1� μ� F� to� 1� μ� F� are� recommended.� Again,� good� quality,�
�low-ESR� capacitors,� preferably� ceramic,� should� be�
�chosen.�
�C� OUT�
�An� output� capacitor� is� required� to� reduce� ringing� and�
�voltage� sag� on� the� output� during� a� transient� condition.� A�
�value� between� 1� μ� F� and� 10� μ� F� is� recommended.�
�A� 10� μ� F� or� larger� capacitor� should� be� used� if� the� distance�
�between� the� MIC2090/MIC2091� and� the� load� is� greater�
�than� three� inches.� The� internal� switch� in� the�
�MIC2090/MIC2091� turns� off� in� (typically)� 20ns.� This�
�extremely� fast� turn-off� can� cause� an� inductive� spike� in�
�the� output� voltage� when� the� internal� switch� turns� off�
�during� an� overcurrent� condition.� The� larger� value�
�capacitor� prevents� the� output� from� glitching� too� low.�
�Where:� I� LIMIT_MIN� and� T� D_FAULT_MIN� are� the� minimum�
�specified� values� listed� in� the� Electrical� Characteristic�
�table� and� V� IN_MAX� is� the� maximum� input� voltage� to� the�
�switch.�
�Current� Sensing� and� Limiting�
�The� MIC2090/MIC2091� protects� the� system� power�
�supply� and� load� from� damage� by� continuously�
�monitoring� current� through� the� on-chip� power� MOSFET.�
�Load� current� is� monitored� by� means� of� a� current� mirror�
�in� parallel� with� the� power� MOSFET� switch.� Current�
�limiting� is� invoked� when� the� load� exceeds� the� over-�
�current� threshold.� When� current� limiting� is� activated� in�
�the� -1� version,� the� output� current� is� constrained� to� the�
�limit� value,� and� remains� at� this� level� until� either� the�
�load/fault� is� removed,� the� load’s� current� requirement�
�drops� below� the� limiting� value,� or� the� switch� goes� into�
�thermal� shutdown.� If� the� overcurrent� fault� is� large�
�enough� to� drop� V� OUT� below� (typically)� 1.8V,� the� internal�
�MOSFET� turns� off� very� quickly� (typically� 20ns).� This�
�prevents� excessive� current� from� flowing� through� the�
�device� and� damaging� the� internal� MOSFET.�
�The� latch-off� feature� of� the� -2� version� latches� the� output�
�off� when� the� output� current� exceeds� the� overcurrent�
�threshold.� V� IN� or� the� enable� pin� must� be� toggled� to� reset�
�the� latch.�
�Enable� Input�
�The� EN� pin� is� a� TTL� logic� level� compatible� input� which�
�turns� the� internal� MOSFET� switch� on� and� off.� The�
�FAULT/� pin� remains� high� when� the� EN� pin� is� pulled� low�
�and� the� output� is� turned� off.� Toggling� the� enable� pin�
�resets� the� output� after� an� OGI� (output� greater� than� input)�
�condition� occurs.� In� the� -2� version,� toggling� the� enable�
�pin� resets� the� output� after� an� overcurrent� event.�
�Fault� Output�
�The� FAULT/� is� an� N-channel� open-drain� output,� which� is�
�asserted� LOW� when� the� MIC2090/MIC2091� switch�
�either� begins� current� limiting� or� enters� thermal� shutdown.�
�July� 2011�
�15�
�M9999-070611-B�
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