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参数资料
| 型号: | MAX1638EAG+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 14/16页 |
| 文件大小: | 0K |
| 描述: | IC STEP-DWN CTRLR HI-SPD 24-SSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,000 |
| 应用: | 控制器,Intel Pentium? II |
| 输入电压: | 4.5 V ~ 5.5 V |
| 输出数: | 1 |
| 输出电压: | 1.3 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 24-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 24-SSOP |
| 包装: | 带卷 (TR) |
��
�
�High-Speed� Step-Down� Controller� with�
�Synchronous� Rectification� for� CPU� Power�
�R� SENSE� =�
�CC� 1� =�
�?� 1� +�
�?� V� IN� ?�
�Use� I� PEAK� from� the� equation� in� the� section� Specifying�
�the� Inductor� .�
�85� mV�
�I� PEAK�
�The� high� inductance� of� standard� wire-wound� resistors�
�can� degrade� performance.� Low-inductance� resistors,�
�such� as� surface-mount� power� metal-strip� resistors,� are�
�preferred.� The� current-sense� resistor’s� power� rating�
�should� be� higher� than� the� following:�
�(� 115� mV� )� 2�
�P� SENSE� ≥�
�R� SENSE�
�In� high-current� applications,� connect� several� resistors�
�in� parallel� as� necessary� to� obtain� the� desired� resis-�
�tance� and� power� rating.�
�Selecting� the� Output� Filter� Capacitor�
�Output� filter� capacitor� values� are� generally� determined�
�by� effective� series� resistance� (ESR)� and� voltage-�
�rating� requirements,� rather� than� by� the� actual� capaci-�
�tance� value� required� for� loop� stability.� Due� to� the� high�
�switching� currents� and� demanding� regulation� require-�
�ments� in� a� typical� MAX1638� application,� use� only� spe-�
�cialized� low-ESR� capacitors� intended� for� switching-�
�regulator� applications,� such� as� Kemet� T510,� AVX� TPS,�
�Sprague� 595D,� Sanyo� OS-CON,� or� Sanyo� GX� series.� Do�
�not� use� standard� aluminum-electrolytic� capacitors,�
�which� can� cause� high� output� ripple� and� instability� due�
�to� high� ESR.� The� output� voltage� ripple� is� usually� domi-�
�nated� by� the� filter� capacitor� ’s� ESR,� and� can� be�
�approximated� as� I� RIPPLE� x� R� ESR� .� To� ensure� stability,� the�
�capacitor� must� meet� both� minimum� capacitance� and�
�maximum� ESR� values� as� given� in� the� following� equations:�
�CC2,� and� RC1.� The� objective� of� compensation� is� to�
�ensure� stability� by� ensuring� that� the� DC-DC� converter’s�
�phase� shift� is� less� than� 180°� by� a� safe� margin,� at� the�
�frequency� where� the� loop� gain� falls� below� unity.�
�Canceling� the� Sampling� Pole�
�and� Output� Filter� ESR� Zero�
�Compensate� the� fast-voltage� feedback� loop� by� con-�
�necting� a� resistor� and� a� capacitor� in� series� from� the�
�CC1� pin� to� AGND.� The� pole� from� CC1� can� be� set� to�
�cancel� the� zero� from� the� filter-capacitor� ESR.� Thus� the�
�capacitor� at� CC1� should� be� as� follows:�
�C� OUT� x� R� ESR�
�10� k� Ω�
�Resistor� RC1� sets� a� zero� that� can� be� used� to� compen-�
�sate� for� the� sampling� pole� generated� by� the� switching�
�frequency.� Set� RC1� to� the� following:�
�?� V� OUT� ?�
�RC� 1� =�
�2� f� OSC� x� CC� 1�
�The� CC1� pin’s� output� resistance� is� 10k� Ω� .�
�Setting� the� Dominant� Pole�
�and� Canceling� the� Load� and� Output� Filter� Pole�
�Compensate� the� slow-voltage� feedback� loop� by� adding�
�a� ceramic� capacitor� from� the� CC2� pin� to� AGND.� This� is�
�an� integrator� loop� used� to� cancel� out� the� DC� load-�
�regulation� error.� Selection� of� capacitor� CC2� sets� the�
�dominant� pole� and� a� compensation� zero.� The� zero� is�
�typically� used� to� cancel� the� unwanted� pole� generated�
�by� the� load� and� output� filter� capacitor� at� the� maximum�
�load� current.� Select� CC2� to� place� the� zero� close� to� or�
�V� OUT� ?�
�CC� 2� =�
�1� mmho� x� C� OUT� V� OUT�
�C� OUT� >�
�?�
�V� REF� ?� 1� +� ?�
�?� V� IN� (� MIN� )� ?�
�V� OUT� x� R� SENSE� x� f� OSC�
�slightly� lower� than� the� frequency� of� the� unwanted� pole,�
�as� follows:�
�x�
�4� I� OUT� (� MAX� )�
�R� ESR� <� R� SENSE�
�Compensating� the� Feedback� Loop�
�The� feedback� loop� needs� proper� compensation� to� pre-�
�vent� excessive� output� ripple� and� poor� efficiency�
�caused� by� instability.� Compensation� cancels� unwanted�
�poles� and� zeros� in� the� DC-DC� converter’s� transfer� func-�
�tion� that� are� due� to� the� power-switching� and� filter� ele-�
�ments� with� corresponding� zeros� and� poles� in� the�
�feedback� network.� These� compensation� zeros� and�
�poles� are� set� by� the� compensation� components� CC1,�
�The� transconductance� of� the� integrator� amplifier� at� CC2�
�is� 1mmho.� The� voltage� swing� at� CC2� is� internally�
�clamped� around� 2.4V� to� 3V� minimum� and� 4V� to� V� CC�
�maximum� to� improve� transient� response� times.� CC2�
�can� source� and� sink� up� to� 100μA.�
�Choosing� the� MOSFET� Switches�
�The� two� high-current� N-channel� MOSFETs� must� be�
�logic-level� types� with� guaranteed� on-resistance� specifi-�
�cations� at� V� GS� =� 4.5V.� Lower� gate-threshold� specs� are�
�better� (i.e.,� 2V� max� rather� than� 3V� max).� Gate� charge�
�14�
�______________________________________________________________________________________�
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