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| 型号: | MAX4981ETA+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 8/10页 |
| 文件大小: | 0K |
| 描述: | IC OVERVOLTAGE PROT CTRLR 8TDFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 应用: | 过压保护控制器 |
| 输入电压: | 2.3 V ~ 28 V |
| 电流 - 电源: | 130µA |
| 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) |
��
�
�Overvoltage� Protector� with�
�Active� Current� Limit�
�Detailed� Description�
�The� MAX4978–MAX4981� family� of� devices� is� a� combi-�
�nation� of� an� overvoltage� protector,� overcurrent� limiter,�
�and� lithium-ion� battery� overcharge� protector� (MAX4980/�
�MAX4981).� These� devices� feature� a� low� 85m� Ω� (typ)�
�R� ON� FET� and� are� used� to� protect� the� charger� input� port�
�on� a� portable� device.� If� the� input� voltage� exceeds� the�
�overvoltage� threshold� (OVLO)� or� falls� below� the� under-�
�voltage� threshold� (UVLO),� the� FET� is� turned� off� to� pre-�
�vent� damage� to� the� protected� components.� The� internal�
�charge� pump’s� 160ms� debounce� time� prevents� false�
�turn-on� of� the� internal� FET� during� startup.� SDT� is� an�
�active-low� open-drain� output� that� asserts� low� during� the�
�debounce� time� after� a� valid� voltage� is� applied� to� the�
�input� (MAX4978/MAX4979).�
�The� MAX4978–MAX4981� feature� an� overcurrent� limiter�
�as� a� second� layer� of� protection� for� a� lithium-ion� battery�
�charger� that� limits� current� to� a� 900mA� (MAX4978/�
�MAX4979/MAX4980)� or� 1950mA� (MAX4981)� threshold�
�for� a� 20ms� blanking� time.� At� the� end� of� the� blanking� time,�
�if� current� is� still� at� the� threshold,� the� FET� is� turned� off� and�
�the� device� restarts� the� cycle� after� 160ms.� The� battery�
�voltage� monitor� measures� the� voltage� of� a� lithium-ion�
�battery� and� disables� the� FET� if� the� battery� voltage�
�exceeds� 4.4V� (MAX4980/MAX4981).�
�Autoretry�
�When� the� current-limit� threshold� is� reached,� the� t� BLANK�
�timer� begins� counting.� The� timer� resets� if� the� overcur-�
�rent� condition� disappears� before� t� BLANK� has� elapsed.�
�A� retry� time� delay,� t� RETRY� ,� is� started� immediately� after�
�t� BLANK� has� elapsed� and� during� that� time,� the� FET� is� off.�
�At� the� end� of� t� RETRY� ,� the� FET� is� turned� on� again.� If� the�
�fault� still� exists,� the� cycle� is� repeated.� If� the� fault� has�
�been� removed,� the� FET� stays� on.�
�Undervoltage� Lockout� (UVLO)�
�The� MAX4978� has� a� 4.4V� UVLO� threshold,� while� the�
�MAX4979/MAX4980/MAX4981� have� a� 2.63V� UVLO�
�threshold.� When� an� undervoltage� lockout� condition�
�occurs� with� high� load� current,� the� voltage� at� the� input� to�
�the� UVLO� comparator� may� recover� due� to� internal� para-�
�sitic� resistance� causing� the� device� to� restart.�
�Overvoltage� Lockout� (OVLO)�
�The� MAX4979� has� a� 6.8V� OVLO� threshold,� while� the�
�MAX4978/MAX4980/MAX4981� have� a� 5.7V� OVLO�
�threshold.�
�Battery� Overcharge� Protector�
�(MAX4980/MAX4981)�
�The� MAX4980/MAX4981� feature� a� battery� overcharge�
�protection� input� (BAT)� that� triggers� a� voltage� fault,� turn-�
�ing� off� the� FET,� when� V� BAT� exceeds� 4.4V.�
�Startup� Debounce� Time� Indicator� (� SDT� )�
�(MAX4978/MAX4979)�
�SDT� is� an� open-drain� output� that� asserts� low� during� the�
�startup� debounce� time� and� during� the� autoretry� time.�
�SDT� returns� to� high� impedance� once� the� charge� pump�
�turns� on.� This� feature� is� useful� for� discharging� the� AC�
�adapter� capacitance� during� the� startup� debounce� time�
�(Figures� 1,� 2).�
�Thermal� Shutdown� Protection�
�The� MAX4978–MAX4981� have� a� thermal-shutdown� fea-�
�ture� to� protect� the� devices� from� overheating.� The�
�device� immediately� turns� off� when� the� junction� temper-�
�ature� exceeds� +160°C� (typ).� These� devices� exit� thermal�
�shutdown� after� the� junction� temperature� cools� by� 10°C�
�(typ).�
�EN� Input�
�EN� is� an� active-low� enable� input.� Drive� EN� low� for� nor-�
�mal� operation.� Drive� EN� high� to� disable� the� device.�
�Applications� Information�
�IN� Bypass� Capacitor�
�For� most� applications,� bypass� IN� to� GND� with� a� 1μF�
�ceramic� capacitor� as� close� to� the� device� as� possible� to�
�enable� ±15kV� (HBM)� ESD� protection� on� IN.� If� the� power�
�source� has� significant� inductance� due� to� long� lead�
�length,� take� care� to� prevent� overshoots� due� to� the� LC�
�tank� circuit� and� provide� protection� if� necessary� to� pre-�
�vent� exceeding� the� 30V� absolute� maximum� rating� on� IN.�
�BAT� Bypass� Capacitor�
�For� most� applications,� bypass� BAT� to� GND� with� a� 1μF�
�ceramic� capacitor� as� close� to� the� device� as� possible� to�
�enable� ±15kV� (HBM)� ESD� protection� on� BAT.� If� high�
�ESD� protection� is� not� necessary,� no� capacitor� is�
�required� on� BAT.�
�ESD� Test� Conditions�
�ESD� performance� depends� on� a� number� of� conditions.�
�The� MAX4978� –MAX4981� are� specified� for� ±15kV�
�(HBM)� typical� ESD� resistance� on� IN� and� BAT� when� IN�
�and� BAT� are� bypassed� to� ground� with� a� 1μF� low� ESR�
�ceramic� capacitor.� Contact� Maxim� for� a� reliability� report�
�that� documents� test� setup,� methodology,� and� results.�
�8�
�_______________________________________________________________________________________�
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