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| 型号: | MAX1876EEG+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 18/21页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM VM 24-QSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| PWM 型: | 电压模式 |
| 输出数: | 2 |
| 频率 - 最大: | 660kHz |
| 占空比: | 90% |
| 电源电压: | 4.75 V ~ 23 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 24-SSOP(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
��
�
�Dual� 180°� Out-of-Phase� PWM� Step-�
�Down� Controllers� with� POR�
�V� IN� (� MIN� )� =� ?�
�?� 1� -� 1� .� 5� (� 600� kHz� )(� 250� ns� )� ?�
�V� IN� (� MIN� )� =� ?�
�?� 1� -� (� 600� kHz� )(� 250� ns� )� ?�
�V� IN� (� MIN� )� =� ?� OUT� DROP� 1� ?� +� V� DROP� 2� -� V� DROP� 1�
�?� ?� 1-� hf� SW� OFF� (� MIN� )� ?� ?�
�the� switching� frequency� and� minimum� off-time� specifi-�
�cations.� This� error� is� more� significant� at� higher� frequen-�
�cies.� Also,� keep� in� mind� that� transient� response�
�performance� of� buck� regulators� operated� close� to�
�dropout� is� poor,� and� bulk� output� capacitance� must�
�often� be� added� (see� the� V� SAG� equation� in� the� Design�
�Procedure� section).�
�The� absolute� point� of� dropout� is� when� the� inductor� cur-�
�rent� ramps� down� during� the� minimum� off-time� (� ?� I� DOWN� )�
�as� much� as� it� ramps� up� during� the� maximum� on-time�
�(� ?� I� UP� ).� The� ratio� h� =� ?� I� UP� /� ?� I� DOWN� is� an� indicator� of� the�
�ability� to� slew� the� inductor� current� higher� in� response� to�
�increased� load,� and� must� always� be� greater� than� 1.� As�
�h� approaches� 1,� the� absolute� minimum� dropout� point,�
�the� inductor� current� cannot� increase� as� much� during�
�each� switching� cycle� and� V� SAG� greatly� increases�
�unless� additional� output� capacitance� is� used.�
�A� reasonable� minimum� value� for� h� is� 1.5,� but� adjusting�
�this� up� or� down� allows� tradeoffs� between� V� SAG� ,� output�
�capacitance,� and� minimum� operating� voltage.� For� a�
�given� value� of� h,� the� minimum� operating� voltage� can� be�
�calculated� as:�
�?� V� +� V� ?�
�t�
�where� V� DROP1� is� the� sum� of� the� parasitic� voltage� drops�
�in� the� inductor� discharge� path,� including� synchronous�
�rectifier,� inductor,� and� PC� board� resistances;� V� DROP2� is�
�the� sum� of� the� resistances� in� the� charging� path,� includ-�
�ing� high-side� switch,� inductor,� and� PC� board� resis-�
�tances;� and� t� OFF(MIN)� is� from� the� Electrical�
�Characteristics� .� The� absolute� minimum� input� voltage� is�
�calculated� with� h� =� 1.�
�If� the� calculated� V+� (MIN)� is� greater� than� the� required�
�minimum� input� voltage,� then� reduce� the� operating� fre-�
�quency� or� add� output� capacitance� to� obtain� an� accept-�
�able� V� SAG� .� If� operation� near� dropout� is� anticipated,�
�calculate� V� SAG� to� be� sure� of� adequate� transient�
�response.�
�Dropout� Design� Example:�
�V� OUT� =� 5V�
�f� SW� =� 600kHz�
�t� OFF(MIN)� =� 250ns�
�V� DROP1� =� V� DROP2� =� 100mV�
�h� =� 1.5�
�?� 5� V� +� 100� mV� ?�
�?�
�+� 100� mV� ?� 100� mV� =� 6� .� 58� V�
�Calculating� again� with� h� =� 1� gives� the� absolute� limit� of�
�dropout:�
�?� 5� V� +� 100� mV� ?�
�?�
�+� 100� mV� ?� 100� mV� =� 6� V�
�Therefore,� V� IN� must� be� greater� than� 6V,� even� with� very�
�large� output� capacitance,� and� a� practical� input� voltage�
�with� reasonable� output� capacitance� would� be� 6.58V.�
�Improving� Noise� Immunity�
�Applications� where� the� MAX1875/MAX1876� must� oper-�
�ate� in� noisy� environments� can� typically� adjust� their� con-�
�troller� ’� s� compensation� to� improve� the� system� ’� s� noise�
�immunity.� In� particular,� high-frequency� noise� coupled�
�into� the� feedback� loop� causes� jittery� duty� cycles.� One�
�solution� is� to� lower� the� crossover� frequency� (see� the�
�Compensation� section).�
�PC� Board� Layout� Guidelines�
�Careful� PC� board� layout� is� critical� to� achieve� low�
�switching� losses� and� clean,� stable� operation.� This� is�
�especially� true� for� dual� converters� where� one� channel�
�can� affect� the� other.� Refer� to� the� MAX1875/MAX1876�
�EV� kit� data� sheet� for� a� specific� layout� example.�
�If� possible,� mount� all� of� the� power� components� on� the�
�top� side� of� the� board� with� their� ground� terminals� flush�
�against� one� another.� Follow� these� guidelines� for� good�
�PC� board� layout:�
�?� Isolate� the� power� components� on� the� top� side� from�
�the� analog� components� on� the� bottom� side� with� a�
�ground� shield.� Use� a� separate� PGND� plane� under�
�the� OUT1� and� OUT2� sides� (referred� to� as� PGND1�
�and� PGND2).� Avoid� the� introduction� of� AC� currents�
�into� the� PGND1� and� PGND2� ground� planes.� Run� the�
�power� plane� ground� currents� on� the� top� side� only.�
�?� Use� a� star� ground� connection� on� the� power� plane� to�
�minimize� the� crosstalk� between� OUT1� and� OUT2.�
�?� Keep� the� high-current� paths� short,� especially� at� the�
�ground� terminals.� This� practice� is� essential� for� sta-�
�ble,� jitter-free� operation.�
�?� Connect� GND� and� PGND� together� close� to� the� IC.�
�Do� not� connect� them� together� anywhere� else.�
�Carefully� follow� the� grounding� instructions� under�
�step� 4� of� the� Layout� Procedure� section.�
�18�
�______________________________________________________________________________________�
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