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| 型号: | MAX17480GTL+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 43/48页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR SERIAL VID 40-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 应用: | 处理器 |
| 电流 - 电源: | 5mA |
| 电源电压: | 4.5 V ~ 5.5 V |
| 工作温度: | -40°C ~ 105°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 40-WFQFN 裸露焊盘 |
| 供应商设备封装: | 40-TQFN-EP(5x5) |
| 包装: | 带卷 (TR) |
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��
�
�AMD� 2-/3-Output� Mobile� Serial�
�VID� Controller�
�=� (� ?� I� LOAD� 3� (� MAX� )� )� 2� L� 3�
�(� ?� I� L� OAD� 3� (� MAX� )� )�
�?� I� L� OAD� 3� (� MAX� )� (� t� SW� 3� ?� ?� t� )�
�:� V� SAG� 3� =� 2� C�
�(�
�)�
�OUT� 3� V� IN� 3� � D� MAX� ?� V� OUT� 3�
�The capacitance value required is determined primarily�
�by� the� stability� requirements.� However,� the� soar� and�
�sag� calculations� are� still� provided� here� for� reference.�
�Low� inductor� values� allow� the� inductor� current� to� slew�
�faster,� replenishing� charge� removed� from� or� added� to�
�the� output� filter� capacitors� by� a� sudden� load� step.�
�Therefore,� the� amount� of� output� soar� and� sag� when� the�
�load� is� applied� or� removed� is� a� function� of� the� output�
�voltage� and� inductor� value.� The� soar� and� sag� voltages�
�are� calculated� as:�
�V� SOAR� 3�
�2� V� OUT� 3� C� OUT� 3�
�2�
�L� 3�
�+�
�C� OUT� 3�
�where� D� MAX� is� the� maximum� duty� cycle� of� the� NB�
�SMPS� as� listed� in� the� Electrical� Characteristics� table,�
�NB� Steady-State� Voltage� Positioning�
�Voltage� positioning� dynamically� lowers� the� output� volt-�
�age� in� response� to� the� load� current,� reducing� the� out-�
�put� capacitance� and� processor� ’s� power-dissipation�
�requirements.� For� NB,� the� load� line� is� generated� by�
�sensing� the� inductor� current� through� the� high-side�
�MOSFET� on-resistance� (R� ON(NH3)� ),� and� is� internally�
�preset� to� -5.5mV/A� (typ).� This� guarantees� the� output�
�voltage� to� stay� in� the� static� regulation� window� over� the�
�maximum� load� conditions� per� AMD� specifications.� See�
�Table� 6� for� full-load� voltage� droop� according� to� differ-�
�ent� ILIM3� settings.�
�NB� Transient� Droop� and� Stability�
�The� voltage-positioned� load-line� of� the� NB� SMPS� also�
�provides� the� AC� ripple� voltage� required� for� stability.� To�
�maintain� stability,� the� output� capacitive� ripple� must� be�
�kept� smaller� than� the� internal� AC� ripple� voltage.� Hence,�
�a� minimum� NB� output� capacitance� is� required� as� calcu-�
�?� ?� 1� +� V�
�t� SW3� is the NB switching period programmed by the�
�OSC� pin,� and� ?� t� equals� V� OUT� /V� IN� x� t� SW� when� in� forced-�
�PWM� mode,� or� L� x� I� LX3MIN� /(V� IN� -� V� OUT� )� when� in� pulse-�
�skipping� mode.�
�lated� below:�
�:� C� OUT� 3� >�
�2� � f� SW� 3�
�1�
�� R� DROOP� 3� (� MIN� )�
�?� V� OUT� 3� ?�
�?�
�IN� 3� ?�
�I� RMS� =� ?� LOAD� 3� ?� V� OUT� 3� (� V� IN� 3� ?� V� OUT� 3� )�
�?� I� ?�
�When using low-capacity ceramic filter capacitors,�
�capacitor� size� is� usually� determined� by� the� capacity�
�needed� to� prevent� V� SOAR� from� causing� problems� during�
�load� transients.� Generally,� once� enough� capacitance� is�
�added� to� meet� the� overshoot� requirement,� undershoot� at�
�the� rising� load� edge� is� no� longer� a� problem.�
�NB� Input� Capacitor� Selection�
�The� input� capacitor� must� meet� the� ripple-current� require-�
�ment� (I� RMS� )� imposed� by� the� switching� currents.� The� I� RMS�
�requirements� can� be� determined� by� the� following� equation:�
�:�
�?� V� IN� 3� ?�
�The� worst-case� RMS� current� requirement� occurs� when�
�operating� with� V� IN3� =� 2V� OUT3� .� At� this� point,� the� above�
�equation� simplifies� to� I� RMS� =� 0.5� x� I� LOAD3� .�
�For� most� applications,� nontantalum� chemistries�
�(ceramic,� aluminum,� or� OS-CON)� are� preferred� due� to�
�their� resistance� to� inrush� surge� currents� typical� of� sys-�
�where� R� DROOP3(MIN)� is� 4mV/A� as� defined� in� the�
�Electrical� Characteristics� table,� and� f� SW3� is� the� NB�
�switching� frequency� programmed� by� the� OSC� pin.�
�SVI� Applications� Information�
�I� 2� C� Bus-Compatible� Interface�
�The� MAX17480� is� a� receive-only� device.� The� 2-wire� seri-�
�al� bus� (pins� SVC� and� SVD)� is� designed� to� attach� on� a�
�low-voltage� I� 2� C-like� bus.� In� the� AMD� mobile� application,�
�the� CPU� directly� drives� the� bus� at� a� speed� of� 3.4MHz.�
�The� CPU� has� a� push-pull� output� driving� to� the� V� DDIO�
�voltage� level.� External� pullup� resistors� are� not� required.�
�When� not� used� in� the� specific� AMD� application,� the� ser-�
�ial� interface� can� be� driven� to� as� high� as� 2.5V,� and� can�
�operate� at� the� lower� speeds� (100kHz,� 400kHz,� or�
�1.7MHz).� At� lower� clock� speeds,� external� pullup� resis-�
�tors� can� be� used� for� open-drain� outputs.� Connect� both�
�SVC� and� SVD� lines� to� V� DDIO� through� individual� pullup�
�resistors.� Calculate� the� required� value� of� the� pullup�
�resistors� using:�
�tems� with� a� mechanical� switch� or� connector� in� series�
�with� the� input.� The� MAX17480� NB� regulator� is� operated�
�as� the� second� stage� of� a� two-stage� power-conversion�
�:�
�R� PULLUP� ≤�
�t� R�
�C� BUS�
�system.� Tantalum� input� capacitors� are� acceptable.�
�Choose� an� input� capacitor� that� exhibits� less� than� 10� °� C�
�temperature� rise� at� the� RMS� input� current� for� optimal�
�circuit� longevity.�
�where� t� R� is� the� rise� time,� and� should� be� less� than� 10%� of�
�the� clock� period.� C� BUS� is� the� total� capacitance� on� the� bus.�
�The� MAX17480� is� compatible� with� the� standard� SVI� inter-�
�face� protocol� as� defined� in� the� following� subsections.�
�Figure� 12� shows� the� SVI� bus� START,� STOP,� and� data�
�change� conditions.�
�______________________________________________________________________________________�
�43�
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