参数资料
| 型号: | MAX8756ETI+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 22/30页 |
| 文件大小: | 0K |
| 描述: | IC CNTRL DUAL PS 28-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 应用: | 控制器,笔记本电脑电源系统 |
| 输入电压: | 4 V ~ 26 V |
| 输出数: | 2 |
| 输出电压: | 1.5V,1.8V,1 V ~ 2.3 V |
| 工作温度: | 0°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-WFQFN 裸露焊盘 |
| 供应商设备封装: | 28-TQFN-EP(4x4) |
| 包装: | 带卷 (TR) |
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�
�Interleaved� High-Efficiency,� Dual� Power-Supply�
�Controllers� for� Notebook� Computers�
�I� LIMIT� LOAD� (� MAX� )� +� ?�
�?� Δ� I� INDUCTOR� ?�
�?�
�?�
�look for nonstandard values, which can provide a better�
�compromise� in� LIR� across� the� input� voltage� range.� If�
�using� a� swinging� inductor� (where� the� no-load� induc-�
�tance� decreases� linearly� with� increasing� current),� evalu-�
�ate� the� LIR� with� properly� scaled� inductance� values.� For�
�the� selected� inductance� value,� the� actual� peak-to-peak�
�inductor� ripple� current� (� Δ� I� INDUCTOR� )� is� defined� by:�
�>� I� ?�
�2�
�where� I� LIMIT_� equals� the� minimum� current-limit� thresh-�
�old� voltage� divided� by� the� current-sense� resistance�
�(R� SENSE� ).� For� the� 50mV� default� setting,� the� minimum�
�current-limit� threshold� is� 50mV.�
�Δ� I� INDUCTOR� =� OUT� IN� OUT�
�V� (� V� ?� V�
�V� IN� ?� OSC� L�
�)�
�Connect� ILIM_� to� V� CC� for� a� default� 50mV� current-limit�
�threshold.� In� adjustable� mode,� the� current-limit� thresh-�
�old� is� precisely� 1/10� the� voltage� seen� at� ILIM_.� For� an�
�Ferrite� cores� are� often� the� best� choice,� although� pow-�
�dered� iron� is� inexpensive� and� can� work� well� at� 200kHz.�
�The� core� must� be� large� enough� not� to� saturate� at� the�
�peak� inductor� current� (I� PEAK� ):�
�adjustable� threshold,� connect� a� resistive� divider� from�
�REF� to� analog� ground� (GND)� with� ILIM_� connected� to�
�the� center� tap.� The� external� 500mV� to� 2V� adjustment�
�range� corresponds� to� a� 50mV� to� 200mV� current-limit�
�threshold.� When� adjusting� the� current� limit,� use� 1%� tol-�
�I� PEAK� =� I� LOAD� (� MAX� )� +�
�Δ� I� INDUCTOR�
�2�
�erance� resistors� and� a� divider� current� of� approximately�
�10μA� to� prevent� significant� inaccuracy� in� the� current-�
�limit� tolerance.�
�Transient� Response�
�The� inductor� ripple� current� also� impacts� transient-�
�response� performance,� especially� at� low� V� IN� -� V� OUT� dif-�
�ferentials.� Low� inductor� values� allow� the� inductor�
�current� to� slew� faster,� replenishing� charge� removed�
�from� the� output� filter� capacitors� by� a� sudden� load� step.�
�The� total� output� voltage� sag� is� the� sum� of� the� voltage�
�sag� while� the� inductor� is� ramping� up� and� the� voltage�
�sag� before� the� next� pulse� can� occur:�
�The� current-sense� method� (Figure� 8)� and� magnitude�
�determines� the� achievable� current-limit� accuracy� and�
�power� loss.� Typically,� higher� current-sense� limits� pro-�
�vide� tighter� accuracy,� but� also� dissipate� more� power.�
�Most� applications� employ� a� current-limit� threshold�
�(V� LIM� )� of� 50mV� to� 100mV,� so� the� sense� resistor� can� be�
�determined� by:�
�R� SENSE_� =� V� LIM_� /� I� LIM_�
�For� the� best� current-sense� accuracy� and� overcurrent�
�V� SAG� =�
�L� (� Δ� I� LOAD� (� MAX� )� )� 2�
�2� C� OUT� (� V� IN� � D� MAX� ?� V� OUT� )�
�+�
�Δ� I� LOAD� (� MAX� )� (� T� ?� Δ� T� )�
�C� OUT�
�protection,� use� a� 1%� tolerance� current-sense� resistor�
�between� the� inductor� and� output� as� shown� in� Figure� 8a.�
�This� configuration� constantly� monitors� the� inductor� cur-�
�rent,� allowing� accurate� current-limit� protection.�
�where� D� MAX� is� maximum� duty� factor� (see� the� Electrical�
�Characteristics),� T� is� the� switching� period� (1� /� f� OSC� ),� and�
�Δ� T� equals� V� OUT� /� V� IN� x� T� when� in� PWM� mode,� or� L� x� 0.2�
�x� I� MAX� /� (V� IN� -� V� OUT� )� when� in� skip� mode.� The� amount� of�
�overshoot� during� a� full-load� to� no-load� transient� due� to�
�stored� inductor� energy� can� be� calculated� as:�
�Alternatively,� high-power� applications� that� do� not�
�require� highly� accurate� current-limit� protection� may�
�reduce� the� overall� power� dissipation� by� connecting� a�
�series� RC� circuit� across� the� inductor� (Figure� 8b)� with� an�
�equivalent� time� constant:�
�V� SOAR� ≈�
�(� Δ� I� LOAD(MAX )� )� 2� L�
�2� C� OUT� V� OUT�
�L�
�R� L�
�=� C� EQ� � R� EQ�
�where� R� L� is� the� inductor’s� series� DC� resistance.� In� this�
�Setting� the� Current� Limit�
�The� minimum� current-limit� threshold� must� be� great�
�enough� to� support� the� maximum� load� current� when� the�
�current� limit� is� at� the� minimum� tolerance� value.� The�
�peak� inductor� current� occurs� at� I� LOAD(MAX)� plus� half�
�the� ripple� current;� therefore:�
�configuration,� the� current-sense� resistance� equals� the�
�inductor’s� DC� resistance� (R� SENSE� =� R� L� ).� Use� the� worst-�
�case� inductance� and� R� L� values� provided� by� the� induc-�
�tor� manufacturer,� adding� some� margin� for� the�
�inductance� drop� over� temperature� and� load.�
�22�
�______________________________________________________________________________________�
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