参数资料
| 型号: | MIC2045-2YTS TR |
| 厂商: | Micrel Inc |
| 文件页数: | 13/15页 |
| 文件大小: | 0K |
| 描述: | IC DISTRIBUTION SW SGL 16-TSSOP |
| 标准包装: | 2,500 |
| 类型: | 高端开关 |
| 输出数: | 1 |
| Rds(开): | 30 毫欧 |
| 内部开关: | 是 |
| 电流限制: | 可调 |
| 输入电压: | 0.8 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm 宽) |
| 供应商设备封装: | 16-TSSOP |
| 包装: | 带卷 (TR) |
| 其它名称: | MIC2045-2YTSTR MIC2045-2YTSTR-ND |
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�
�MIC2044/2045�
�Applications� Information�
�Input� and� Output�
�Supply� Bypass� Filtering�
�The� need� for� input� supply� bypass� is� brought� about� due� to�
�several� factors,� most� notably� the� input/output� inductance�
�along� the� power� path,� operating� current� and� current� limit,� and�
�output� capacitance.� A� 0.1� μ� F� to� 0.47� μ� F� bypass� capacitor�
�positioned� very� close� to� the� VIN� pin� to� GND� of� the� device� is�
�strongly� recommended� to� filter� high� frequency� oscillations�
�due� to� inductance.� Also,� a� sufficient� bypass� capacitor� posi-�
�tioned� close� to� the� input� source� to� the� switch� is� strongly�
�advised� in� order� to� suppress� supply� transient� spikes� and� to�
�limit� input� voltage� droop.� Inrush� current� increases� with� larger�
�output� capacitance,� thus� the� minimum� value� of� this� capacitor�
�will� require� experimental� determination� for� the� intended� appli-�
�cation� and� design.� A� good� starting� point� is� a� capacitor�
�between� 4.7� μ� F� to� 15� μ� F.� Without� these� bypass� capacitors,� an�
�extreme� overload� condition� such� as� a� short� circuit,� or� a� large�
�capacitive� load,� may� cause� either� the� input� supply� to� exceed�
�the� maximum� rating� of� 6V� and� possibly� cause� damage� to� the�
�internal� control� circuitry� or� allow� the� input� supply� to� droop� and�
�fall� out� of� regulation� and/or� below� the� minimum� operating�
�voltage� of� the� device.�
�Output� Capacitance�
�When� the� MIC2044� die� exceeds� the� overtemperature� thresh-�
�old� of� approximately� 140� °� C,� the� device� can� enter� into� a�
�thermal� shutdown� mode� if� the� die� temperature� falls� below�
�120� °� C� and� then� rises� above� 140� °� C� in� a� continuous� cycle.�
�With� VOUT� cycling� on� and� off,� the� MIC2044� will� reset� the�
�/FAULT� while� in� an� overtemperature� fault� condition� if� V� OUT� is�
�allowed� to� swing� below� ground.� The� inductance� present� at�
�Micrel�
�a� non-linear� response.� See� the� “Functional� Characteristics”�
�section.� Table� 1� shows� the� rise� time� for� various� standard�
�capacitor� values.� Additionally,� the� output� turn-on� time� must�
�be� less� than� the� nominal� flag� delay� of� 32ms� in� order� to� avoid�
�nuisance� tripping� of� the� /FAULT� output.� This� limit� is� imposed�
�by� the� current� limiting� circuitry� which� monitors� the�
�(VIN� –� VOUT)� differential� voltage� and� concludes� a� fault�
�condition� is� present� if� the� differential� voltage� exceeds� 200mV�
�for� more� than� the� flag� delay� period.� For� the� MIC2045,� the�
�/FAULT� will� assert� and� the� output� will� latch� off� if� the� output� is�
�not� within� 200mV� of� the� input� before� the� flag� delay� times� out.�
�When� using� the� active-low� (–2)� option� with� the� EN� input� tied�
�to� ground,� slew� control� is� functional� during� initial� start-up� but�
�does� not� function� upon� resetting� the� input� power� to� the�
�device.� In� order� for� the� SLEW� control� to� operate� during�
�consecutive� system� restarts,� the� EN� pin� must� reset� (toggle�
�OFF� to� ON).�
�UVLO� Threshold� Setting� With� Low� Input� Voltages�
�When� the� switching� voltage� is� below� 1.6V,� the� device’s�
�standard� UVLO� threshold� (1.45V� nominal)� will� hinder� the�
�output� MOSFET� in� switching� VIN� to� VOUT.� In� this� case,� the�
�use� of� the� UVLOIN� pin� is� required� to� override� the� standard�
�UVLO� threshold� and� set� a� new,� lower� threshold� for� the� lower�
�input� voltage.� An� external� resistive� divider� network� con-�
�nected� at� the� UVLOIN� pin� is� used� to� set� the� new� threshold.�
�Due� to� the� ratio� of� the� internal� components,� the� total� series�
�resistance� of� the� external� resistive� divider� should� not� exceed�
�200k� ?� .� The� circuit� shown� in� Figure� 4� illustrates� an� application�
�that� switches� 0.8V� while� the� device� is� powered� from� a�
�separate� 2.5V� power� supply.� The� UVLO� threshold� is� set� by�
�the� following� equation.�
�V� UVTH� =� 0.23V� � ?� 1� +�
�R3� ?�
�the output must be neutralized by capacitance in order to�
�ensure� that� the� output� does� not� fall� below� ground.� In� order� to�
�?�
�?�
�R2� ?�
�?�
�(4)�
�counter� the� board� parasitic� inductance� and� the� inductance� of�
�relatively� short-length� power� cable� (� ≤� 1ft.,� 16� -� 20� gauge� wire),�
�a� minimum� output� capacitance� of� 22� μ� F� is� strongly� recom-�
�mended� and� should� be� placed� close� to� the� VOUT� pin� of� the�
�MIC2044.� For� applications� that� use� more� than� a� foot� of� cable,�
�an� additional� 10� μ� F/ft.� is� recommended.�
�Reverse� Current� Blocking�
�The� MIC2044/45� provides� reverse� current� flow� blocking�
�through� the� output� MOSFET� if� the� voltage� at� VOUT� is� greater�
�than� VIN� when� the� device� is� disabled.� The� V� BIAS� supply� has�
�a� limited� reverse� current� flow� if� the� voltage� at� VOUT� is� pulled�
�above� VBIAS� when� the� device� is� disabled.� A� graph� of� the�
�V� BIAS� reverse� current� flow� is� shown� in� the� “Functional�
�Characteristics”� section.� The� reverse� current� for� VBIAS� can�
�be� completely� blocked� by� inserting� a� Schottky� diode� from� the�
�VBIAS� pin� (cathode)� to� the� supply� (anode).� However,� the�
�In� substituting� the� resistor� values� from� Figure� 4,� the� resulting�
�UVLO� threshold� (V� UVTH� )� is� calculated� as� 0.6V� for� this� 0.8V�
�switching� application.� When� using� the� UVLOIN� pin� to� set� a�
�new� UVLO� threshold,� an� optional� 0.1� μ� F� to� 1.0� μ� F� capacitor�
�from� UVLOIN� to� GND� may� be� used� as� a� glitch� filter� in� order�
�to� avoid� nuisance� tripping� of� the� UVLO� threshold.� If� the�
�UVLOIN� pin� is� not� in� use,� this� pin� should� be� left� open�
�(floating).� The� use� of� a� pull-down� resistor� to� ground� will� offset�
�the� ratio� of� the� internal� resistive� divider� to� this� pin� resulting� in�
�a� shift� in� the� UVLO� threshold.� To� bypass� (disable)� UVLO,�
�connect� the� UVLOIN� pin� directly� to� the� VIN� pin� of� the�
�MIC2044/45.�
�Conditions:� V� IN� =� V� BIAS� =� 5V/3V�
�C� LOAD� =� 47� μ� F;� I� LOAD� =� 1A�
�minimum� voltage� of� 1.6V� must� be� supplied� to� VBIAS� after�
�accounting� for� the� voltage� drop� across� the� diode.�
�C� SLEW� (� μ� F)�
�Rise� Time� (ms)�
�5V� 3V�
�Output� Slew-Rate� Adjustment�
�The� output� slew-rate� for� the� MIC2044/45� can� be� slowed� down�
�by� the� use� of� a� capacitor� (16V� rating,� minimum;� 25V� sug-�
�gested)� between� SLEW� and� GND.� The� slew-rate� control�
�circuitry� is� independent� of� the� load� capacitance� and� exhibits�
�0.02� 4.4� 6.6�
�0.033� 7.5� 11.25�
�0.047� 11� 16�
�0.1� 24� 31.5�
�Table� 1.� Typical� Output� Rise� Time� for� Various� C� SLEW�
�(V� IN� =� 5V,� 3V)�
�January� 2005�
�13�
�MIC2044/2045�
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