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参数资料
| 型号: | MAX1809EEE+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 10/17页 |
| 文件大小: | 0K |
| 描述: | IC DDR TERMINATION 16-QSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 应用: | 转换器,DDR |
| 输入电压: | 3 V ~ 5.5 V |
| 输出数: | 1 |
| 输出电压: | 1.1 V ~ 5.5 V |
| 工作温度: | 0°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SSOP(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-QSOP |
| 包装: | 带卷 (TR) |
��
�
�3A,� 1MHz,� DDR� Memory� Termination� Supply�
�(� V� OUT� � t� OFF� )�
�(� I� SOURCE� SINK� )� � LIR�
�C� OUT� ≥�
�×� 79� μ� FV� /� μ� s�
�to� maximum� DC� load� current.� A� higher� value� of� LIR�
�allows� smaller� inductance� but� results� in� higher� losses�
�and� ripple.� A� good� compromise� between� size� and� losses�
�is� found� at� approximately� a� 25%� ripple� current� to� load�
�current� ratio� (LIR� =� 0.25).�
�L� =�
�?� I�
�The� peak� inductor� current� at� full� load� is� calculated� by:�
�Stable� operation� requires� the� correct� output� filter�
�capacitor.� When� choosing� the� output� capacitor,� ensure�
�that:�
�t� OFF�
�V� OUT�
�In� applications� where� the� output� is� subject� to� large� load�
�transients,� the� output� capacitor� ’� s� size� typically� depends�
�on� how� much� ESR� is� needed� to� prevent� the� output� from�
�I� PEAK� =� I� OUT� +�
�(� V� OUT� � t� OFF� )�
�2� � L�
�dipping� too� low� under� a� load� transient.� Ignoring� the� sag�
�due� to� finite� capacitance:�
�R� ESR� ≤� ?� V� OUT� /� ?� I� OUT(MAX)�
�where� I� OUT� is� the� maximum� source� or� sink� current.�
�Choose� an� inductor� with� a� saturation� current� at� least� as�
�high� as� the� peak� inductor� current.� Additionally,� verify�
�the� peak� inductor� current� while� sourcing� output� current�
�(I� OUT� =� I� SOURCE� )� does� not� exceed� the� positive� current�
�limit.� The� inductor� selected� should� exhibit� low� losses� at�
�the� chosen� operating� frequency.�
�Input� Capacitor� Selection�
�The� input� filter� capacitor� reduces� peak� currents� and�
�noise� at� the� voltage� source.� Use� a� low-ESR� and� low-�
�ESL� capacitor� located� no� further� than� 5mm� from� IN.�
�Select� the� input� capacitor� according� to� the� RMS� input�
�ripple-current� requirements� and� voltage� rating:�
�The� actual� microfarad� capacitance� value� required� is�
�defined� by� the� physical� size� needed� to� achieve� low�
�ESR,� and� by� the� chemistry� of� the� capacitor� technology.�
�Thus,� the� capacitor� is� usually� selected� by� ESR,� size,�
�and� voltage� rating� rather� than� by� capacitance� value�
�(this� is� true� of� tantalums,� OS-CONs,� and� other� elec-�
�trolytics).� When� using� low-capacity� filter� capacitors�
�such� as� ceramic� or� polymer� types,� capacitor� size� is�
�usually� determined� by� the� capacity� needed� to� prevent�
�V� SAG� and� 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.� The�
�amount� of� overshoot� and� undershoot� due� to� stored�
�inductor� energy� can� be� calculated� as:�
�� (� V�
�I� RIPPLE� =� I� OUT� ?�
�?�
�V� OUT� )� ?�
�?�
�?� V� OUT� IN�
�?� V� IN�
�?�
�?�
�?�
�V� SOAR� =� L� ?� ?� I� OUT� 2� /(2� ?� C� OUT� ?� V� OUT� )�
�V� SAG� =� L� ?� ?� I� OUT� 2� /[2� ?� C� OUT� ?� (V� IN� -� V� OUT� )]�
�Soft-Start�
�Soft-start� allows� a� gradual� increase� of� the� internal� current�
�where� I� RIPPLE� =� input� RMS� current� ripple.�
�Output� Capacitor� Selection�
�The� output� filter� capacitor� affects� the� output� voltage�
�ripple,� output� load-transient� response,� and� feedback�
�loop� stability.� The� output� filter� capacitor� must� have� low�
�enough� ESR� to� meet� output� ripple� and� load� transient�
�requirements,� yet� have� high� enough� ESR� to� satisfy� sta-�
�bility� requirements.� Also,� the� capacitance� value� must�
�be� high� enough� to� guarantee� stability� and� absorb� the�
�inductor� energy� going� from� a� full-load� sourcing� to� full-�
�load� sinking� condition� without� exceeding� the� maximum�
�output� tolerance.�
�limit� to� reduce� input� surge� currents� at� startup� and� at� exit�
�from� shutdown.� A� timing� capacitor,� C� SS� ,� placed� from� SS�
�to� GND� sets� the� rate� at� which� the� internal� current� limit� is�
�changed.� Upon� power-up,� when� the� device� comes� out� of�
�undervoltage� lockout� (2.6V� typ)� or� after� the� SHDN� pin� is�
�pulled� high,� a� 4μA� constant� current� source� charges� the�
�soft-start� capacitor� and� the� voltage� on� SS� increases.�
�When� the� voltage� on� SS� is� less� than� approximately� 0.7V,�
�the� current� limit� is� set� to� zero.� As� the� voltage� increases�
�from� 0.7V� to� approximately� 1.8V,� the� current� limit� is�
�adjusted� from� 0V� to� the� current-limit� threshold� (see� the�
�Electrical� Characteristics� ).� The� voltage� across� the� soft-�
�start� capacitor� changes� with� time� according� to� the�
�For� stable� operation,� the� MAX1809� requires� a� minimum�
�feedback� ripple� voltage� of� V� RIPPLE� ≥� 1%� ?� V� EXTREF� .�
�The� minimum� ESR� of� the� output� capacitor� should� be:�
�R� ESR� >� 1%� ?� (L� /� t� OFF� )�
�equation:�
�V� SS� =�
�4� μ� A� ×� t�
�C� SS�
�10�
�______________________________________________________________________________________�
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