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参数资料
| 型号: | MAX8586ETA/V+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 9/13页 |
| 文件大小: | 0K |
| 描述: | IC USB SWITCH 1.2A SGL 8-TDFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 类型: | USB 开关 |
| 输出数: | 1 |
| Rds(开): | 55 毫欧 |
| 内部开关: | 是 |
| 电流限制: | 可调 |
| 输入电压: | 2.75 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-WDFN 裸露焊盘 |
| 供应商设备封装: | 8-TDFN-EP(3x3) |
| 包装: | 带卷 (TR) |
��
�
�MAX8586�
�Single� 1.2A� USB� Switch� in�
�3mm� x� 3mm� TDFN�
�Thermal� Shutdown�
�When� the� MAX8586� die� temperature� exceeds� +160°C,�
�the� switch� turns� off� and� FAULT� goes� low.� Thermal� shut-�
�down� does� not� utilize� the� 20ms� fault-blanking� timeout�
�period.� When� the� junction� temperature� cools� by� 15°C,�
�the� switch� turns� on� again� and� FAULT� returns� high.�
�When� an� overload� condition� persists,� the� switch� cycles�
�on� and� off,� resulting� in� a� pulsed� output� that� reduces� the�
�average� system� load.�
�Applications� Information�
�Setting� the� Current� Limit�
�A� resistor� from� ISET� to� ground� programs� the� current-�
�limit� value.� Use� a� resistor� between� 26k� Ω� and� 60k� Ω� to�
�set� the� current� limit� according� to� the� formula:�
�bypass� capacitors,� limiting� overshoot.� If� severe� ringing�
�occurs� because� of� large� load� inductance,� clamp� the�
�MAX8586� output� below� +6V� and� above� -0.3V.�
�Turn-On� and� Turn-Off� Behavior�
�The� MAX8586� features� a� slow� turn-on� and� turn-off,� mini-�
�mizing� loading� transients� on� the� upstream� power�
�source.� SEL� sets� the� active� polarity� of� the� logic� inputs� of�
�the� MAX8586.� Drive� ON� to� the� same� logic� state� as� SEL�
�to� enable� the� output.� Drive� ON� to� the� opposite� logic�
�state� as� SEL� to� disable� the� output� (see� Table� 1).� The�
�output� enters� a� high-impedance� state� when� disabled.�
�Table� 1.� SEL/ON� Inputs�
�I� LIM(TYPICAL)� =� 36400� /� R� ISET� (Amps)�
�Do� not� use� R� ISET� values� below� 26k� Ω� because� the� maxi-�
�mum� current� rating� of� the� device� may� be� exceeded.�
�R� ISET� values� larger� than� 60k� Ω� are� not� recommended�
�and� do� not� provide� a� lower� limit� current� than� 500mA.� If�
�the� output� drops� below� 1V� (typ),� the� MAX8586� shifts� to� a�
�SEL�
�High�
�High�
�Low�
�Low�
�ON�
�High�
�Low�
�High�
�Low�
�OUT� STATE�
�Enabled�
�Disabled�
�Disabled�
�Enabled�
�short-circuit� current-limit� threshold� that� is� 30%� above� the�
�programmed� level� given� by� the� I� LIM(TYPICAL)� formula.�
�Input� Power� Supply� and� Capacitance�
�To� limit� the� input� voltage� drop� during� momentary� output�
�load� transients,� connect� a� capacitor� from� IN� to� ground.�
�A� 1μF� ceramic� capacitor� is� required� for� local� decou-�
�pling;� however,� higher� capacitor� values� further� reduce�
�the� voltage� drop� at� the� input.� When� driving� inductive�
�loads,� a� larger� capacitance� may� be� needed� to� prevent�
�voltage� spikes� from� exceeding� the� MAX8586’s� absolute�
�maximum� ratings.�
�Output� Capacitance�
�A� capacitor� as� large� as� 500μF� is� allowed� on� the� output�
�to� smooth� out� transients� and/or� increase� rise/fall� times.�
�Larger� output� capacitance� may� be� used,� but� the� result-�
�ing� output� charge� time� during� startup� may� exceed� the�
�fault-blanking� period� resulting� in� a� FAULT� flag.�
�Driving� Inductive� Loads�
�A� wide� variety� of� devices� (mice,� keyboards,� cameras,�
�and� printers)� typically� connect� to� the� USB� port� with�
�cables,� adding� an� inductive� component� to� the� load.� This�
�inductance� causes� the� output� voltage� at� the� USB� port� to�
�oscillate� during� a� load� step.� The� MAX8586� drives� induc-�
�tive� loads;� however,� care� must� be� taken� to� avoid�
�exceeding� the� device� ’s� absolute� maximum� ratings.�
�Usually,� the� load� inductance� is� relatively� small,� and� the�
�MAX8586’s� input� includes� a� substantial� bulk� capaci-�
�tance� from� an� upstream� regulator� as� well� as� local�
�Maxim� Integrated�
�Layout� and� Thermal� Dissipation�
�Keep� all� input/output� traces� as� short� as� possible� to�
�reduce� the� effect� of� undesirable� parasitic� inductance�
�and� optimize� the� switch� response� time� to� output� short-�
�circuit� conditions.� Place� input� and� output� capacitors� no�
�more� than� 5mm� from� device� leads.� Connect� IN� and� OUT�
�to� the� power� bus� with� short� traces.� Wide� power� bus�
�planes� at� IN� and� OUT� provide� superior� heat� dissipation�
�as� well.� An� active� switch� dissipates� little� power� with� mini-�
�mal� change� in� package� temperature.� Calculate� the�
�power� dissipation� for� this� condition� as� follows:�
�P� =� I� OUT� 2� x� R� ON�
�At� the� normal� operating� current� (I� OUT� =� 0.5A)� and� the�
�maximum� on-resistance� of� the� switch� (95m� Ω� ),� the�
�power� dissipation� is:�
�P� =� (0.5A)� 2� x� 0.95� Ω� =� 24mW�
�The� worst-case� power� dissipation� occurs� when� the� out-�
�put� current� is� just� below� the� current-limit� threshold� with�
�an� output� voltage� greater� than� 1V.� In� this� case,� the�
�power� dissipated� in� the� switch� is� the� voltage� drop�
�across� the� switch� multiplied� by� the� current� limit:�
�P� =� I� LIM� x� (V� IN� -� V� OUT� )�
�For� a� 5.5V� input� and� 1V� output,� the� maximum� power�
�dissipation� is:�
�P� =� 1.6A� x� (5.5V� -� 1V)� =� 7.2W�
�9�
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