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| 型号: | MAX1715EEI |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 17/25页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM 28-QSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 50 |
| PWM 型: | 控制器 |
| 输出数: | 2 |
| 频率 - 最大: | 620kHz |
| 占空比: | 100% |
| 电源电压: | 4.5 V ~ 5.5 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 28-SSOP(0.154",3.90mm 宽) |
| 包装: | 管件 |
��
�
�Ultra-High� Efficiency,� Dual� Step-Down�
�Controller� for� Notebook� Computers�
�Overvoltage� protection� can� be� defeated� through� the�
�SKIP� test� mode� (Table� 3).�
�Output� Undervoltage� Protection� (UVP)�
�The� output� undervoltage� protection� function� is� similar� to�
�foldback� current� limiting,� but� employs� a� timer� rather�
�than� a� variable� current� limit.� If� the� MAX1715� output� volt-�
�age� is� under� 70%� of� the� nominal� value� 20ms� after� com-�
�ing� out� of� shutdown,� the� PWM� is� latched� off� and� won’t�
�restart� until� V� CC� power� is� cycled� or� SHDN� is� toggled.�
�No-Fault� Test� Mode�
�The� over/undervoltage� protection� features� can� compli-�
�cate� the� process� of� debugging� prototype� breadboards�
�since� there� are� (at� most)� a� few� milliseconds� in� which� to�
�determine� what� went� wrong.� Therefore,� a� test� mode� is�
�provided� to� totally� disable� the� OVP,� UVP,� and� thermal�
�shutdown� features,� and� clear� the� fault� latch� if� it� has�
�been� set.� The� PWM� operates� as� if� SKIP� were� grounded�
�(PFM/PWM� mode).�
�The� no-fault� test� mode� is� entered� by� sinking� 1.5mA�
�from� SKIP� through� an� external� negative� voltage� source�
�in� series� with� a� resistor� (Figure� 7).� SKIP� is� clamped� to�
�AGND� with� a� silicon� diode,� so� choose� the� resistor� value�
�equal� to� (V� FORCE� -� 0.65V)� /� 1.5mA.�
�__________________Design� Procedure�
�Firmly� establish� the� input� voltage� range� and� maximum�
�load� current� before� choosing� a� switching� frequency�
�and� inductor� operating� point� (ripple-current� ratio).� The�
�primary� design� trade-off� lies� in� choosing� a� good� switch-�
�ing� frequency� and� inductor� operating� point,� and� the� fol-�
�lowing� four� factors� dictate� the� rest� of� the� design:�
�1)� Input� voltage� range.� The� maximum� value� (V� IN(MAX)� )�
�must� accommodate� the� worst-case� high� AC� adapter�
�voltage.� The� minimum� value� (V� IN(MIN)� )� must� account�
�for� the� lowest� battery� voltage� after� drops� due� to� con-�
�nectors,� fuses,� and� battery� selector� switches.� If�
�there� is� a� choice� at� all,� lower� input� voltages� result� in�
�better� efficiency.�
�2)� Maximum� load� current.� There� are� two� values� to�
�consider.� The� peak� load� current� (I� LOAD(MAX)� )� deter-�
�mines� the� instantaneous� component� stresses� and� fil-�
�tering� requirements,� and� thus� drives� output�
�capacitor� selection,� inductor� saturation� rating,� and�
�the� design� of� the� current-limit� circuit.� The� continuous�
�load� current� (I� LOAD� )� determines� the� thermal� stresses�
�and� thus� drives� the� selection� of� input� capacitors,�
�MOSFETs,� and� other� critical� heat-contributing� com-�
�ponents.� Modern� notebook� CPUs� generally� exhibit�
�I� LOAD� =� I� LOAD(MAX)� ·� 80%.�
�3)� Switching� frequency.� This� choice� determines� the�
�basic� trade-off� between� size� and� efficiency.� The�
�optimal� frequency� is� largely� a� function� of� maximum�
�input� voltage,� due� to� MOSFET� switching� losses� that�
�are� proportional� to� frequency� and� V� IN� 2.� The� opti-�
�mum� frequency� is� also� a� moving� target,� due� to� rapid�
�MAX1715�
�SKIP�
�APPROXIMATELY�
�-0.65V�
�1.5mA�
�improvements� in� MOSFET� technology� that� are� mak-�
�ing� higher� frequencies� more� practical� (Table� 4).�
�4)� Inductor� operating� point.� This� choice� provides�
�trade-offs� between� size� vs.� efficiency.� Low� inductor�
�values� cause� large� ripple� currents,� resulting� in� the�
�smallest� size,� but� poor� efficiency� and� high� output�
�noise.� The� minimum� practical� inductor� value� is� one�
�V� FORCE�
�AGND�
�Figure� 7.� Disabling� Over/Undervoltage� Protection� (Test� Mode)�
�that� causes� the� circuit� to� operate� at� the� edge� of� criti-�
�cal� conduction� (where� the� inductor� current� just�
�touches� zero� with� every� cycle� at� maximum� load).�
�Inductor� values� lower� than� this� grant� no� further� size-�
�reduction� benefit.�
�The� MAX1715’s� pulse-skipping� algorithm� initiates�
�skip� mode� at� the� critical� conduction� point.� So,� the�
�inductor� operating� point� also� determines� the� load-�
�current� value� at� which� PFM/PWM� switchover� occurs.�
�The� optimum� point� is� usually� found� between� 20%�
�and� 50%� ripple� current.�
�______________________________________________________________________________________�
�17�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| MAX1715EEI+ | 功能描述:DC/DC 开关控制器 Dual Step-Down Controller RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| MAX1715EEI+T | 功能描述:DC/DC 开关控制器 Dual Step-Down Controller RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| MAX1715EEI-T | 功能描述:DC/DC 开关控制器 RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| MAX1715EVKIT | 功能描述:DC/DC 开关控制器 Evaluation Kit for the MAX1715 RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| MAX1716EEG | 功能描述:DC/DC 开关控制器 RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
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