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| 型号: | MAX887HESA+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 8/12页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC ADJ 0.6A 8SOIC |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 1.25 V ~ 10 V |
| 输入电压: | 3.5 V ~ 11 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 300kHz |
| 电流 - 输出: | 600mA |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 8-SOIC |
��
�
�100%� Duty� Cycle,� Low-Noise,�
�Step-Down,� PWM� DC-DC� Converter�
�_______________Detailed� Description�
�The� MAX887� is� a� step-down,� pulse-width� modulation�
�(PWM)� DC-DC� converter� that� provides� an� adjustable�
�output� from� 1.25V� to� 10.5V.� It� accepts� inputs� from� 3.5V�
�to� 11V� and� delivers� up� to� 600mA.� An� internal� MOSFET�
�and� synchronous� rectifier� reduce� PC� board� area� while�
�maintaining� high� efficiency.� Cycle-by-cycle� current� lim-�
�iting� protects� the� internal� MOSFETs� and� reduces� sys-�
�tem� stress� during� overload� conditions.� Operation� with�
�up� to� 100%� duty� cycle� for� an� output� of� 3V� and� higher�
�minimizes� dropout� voltage.� Fixed-frequency� PWM� oper-�
�ation� reduces� interference� in� sensitive� communications�
�and� data-acquisition� applications.� A� SYNC� input� allows�
�synchronization� to� an� external� clock.� When� enabled,�
�Idle� Mode?� extends� battery� life� under� light� loads� by�
�placing� the� regulator� in� low� quiescent� current� (200μA�
�typ)� pulse-frequency� modulation� (PFM)� operation.�
�Shutdown� quiescent� current� is� 2.5μA� typ.�
�PWM� Control� Scheme�
�The� MAX887� uses� an� oscillator-triggered� minimum/�
�maximum� on-time� current-mode� control� scheme.� The�
�minimum� on-time� is� approximately� 280ns� unless� in�
�dropout.� The� maximum� on-time� is� approximately�
�4/f� OSC� ,� allowing� operation� to� 100%� duty� cycle.� Current-�
�mode� feedback� provides� cycle-by-cycle� current� limit-�
�ing� for� superior� load� and� line� response� and� protection�
�of� the� internal� MOSFET� and� rectifier.�
�At� each� falling� edge� of� the� internal� oscillator,� the� SYNC�
�cell� sends� a� PWM� ON� signal� to� the� control� and� drive�
�logic,� turning� on� the� internal� P-channel� MOSFET� (main�
�switch)� (Figures� 1� and� 2).� This� allows� current� to� ramp�
�up� through� the� inductor� (Figure� 2)� to� the� load,� and�
�stores� energy� in� a� magnetic� field.� The� switch� remains�
�on� until� either� the� current-limit� (ILIM)� comparator� is�
�tripped,� the� maximum� on-time� is� reached� (not� shown),�
�or� the� PWM� comparator� signals� that� the� output� is� in�
�regulation.� When� the� switch� turns� off,� during� the� sec-�
�ond� half� of� each� cycle,� the� inductor’s� magnetic� field�
�collapses,� releasing� the� stored� energy� and� forcing� cur-�
�rent� through� the� output� diode� to� the� output� filter� capaci-�
�tor� and� load.� The� output� filter� capacitor� stores� charge�
�when� the� inductor� current� is� high� and� releases� it� when�
�the� inductor� current� is� low,� smoothing� the� voltage�
�across� the� load.�
�During� normal� operation,� the� MAX887� regulates� output�
�voltage� by� switching� at� a� constant� frequency� and� then�
�modulating� the� power� transferred� to� the� load� per� pulse�
�using� the� PWM� comparator.� A� multi-input� comparator�
�sums� three� weighted� differential� signals� (the� output�
�voltage� with� respect� to� the� reference,� the� main� switch�
�current� sense,� and� the� slope-compensation� ramp)� and�
�changes� states� when� a� threshold� is� reached.� It� modulates�
�output� power� by� adjusting� the� inductor� peak� current�
�during� the� first� half� of� each� cycle,� based� on� the� output�
�error� voltage.� The� MAX887’s� loop� gain� is� relatively� low�
�to� enable� the� use� of� a� small,� low-valued� output� filter�
�capacitor.� The� resulting� load� regulation� is� 2.5%� typ� at�
�500mA.� Slope� compensation� is� added� to� account� for�
�the� inductor� current� waveform’s� down� slope� during� the�
�second� half� of� each� cycle,� and� to� eliminate� the� inductor�
�current� staircasing� characteristic� of� current-mode� con-�
�trollers� at� high� duty� cycles.�
�100%� Duty-Cycle� Operation�
�For� the� internal� oscillator� frequency,� the� f� OSC� /4� maxi-�
�mum� on-time� exceeds� one� cycle� and� permits� operation�
�to� 100%� duty� cycle.� As� the� input� voltage� drops,� the�
�duty� cycle� increases� until� the� P-channel� MOSFET� is�
�held� on� continuously� and� 100%� duty� cycle� is� reached.�
�Dropout� voltage� in� 100%� duty� cycle� is� the� output� cur-�
�rent� multiplied� by� the� on-resistance� of� the� internal�
�switch� and� inductor� around� 300mV� (I� OUT� =� 500mA).� In�
�PWM� mode,� subharmonic� oscillation� can� occur� near�
�V� IN� =� 3.5V� to� 11V�
�V+�
�LX�
�33� μ� H�
�V� OUT� =� 3.3V�
�dropout,� but� subharmonic� voltage� ripple� is� small,� since�
�the� ripple� current� is� low.� When� using� synchronization� to�
�an� external� oscillator,� 100%� duty� cycle� is� available� for�
�47� μ� F�
�0.33� μ� F�
�MAX887�
�R1�
�165k� ?�
�C1�
�100pF�
�47� μ� F�
�SYNC� frequencies� higher� than� f� OSC� /4.�
�Synchronous� Rectification�
�GND�
�OFF�
�2.2� μ� F�
�ON�
�SHDN�
�SYNC�
�VL�
�REF�
�0.047� μ� F�
�FB�
�R2�
�100k� ?�
�V� OUT� =� 1.25V� (R1/R2� +� 1)�
�Although� an� external� Schottky� diode� is� used� as� the� pri-�
�mary� output� rectifier,� an� N-channel� synchronous� rectifi-�
�er� turns� on� to� reduce� power� loss� across� the� diode� and�
�improve� efficiency.� During� the� second� half� of� each�
�cycle,� when� the� inductor� current� ramps� below� the�
�threshold� set� by� the� NEGLIM� comparator� or� when� the�
�end� of� the� oscillator� period� is� reached,� the� synchronous�
�rectifier� turns� off.� This� keeps� excess� current� from� flowing�
�Figure� 2.� Typical� Operating� Circuit�
�8�
�_______________________________________________________________________________________�
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