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| 型号: | MAX639ESA+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 10/13页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK 5V/ADJ 225MA 8SOIC |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 类型: | 降压(降压) |
| 输出类型: | 两者兼有 |
| 输出数: | 1 |
| 输出电压: | 5V,1.3 V ~ 11.5 V |
| 输入电压: | 4 V ~ 11.5 V |
| 电流 - 输出: | 225mA |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 8-SOIC |
��
�
�5V/3.3V/3V/Adjustable,� High-Efficiency,�
�Low� I� Q� ,� Step-Down� DC-DC� Converters�
�INPUT�
�+4.0V� TO� +11.5V�
�6�
�V+�
�LX�
�5�
�L� =� 100� μ� H�
�OUTPUT�
�C� IN�
�100� μ� F�
�8�
�SHDN�
�MAX639� VOUT�
�MAX640�
�1�
�1N5817�
�R3�
�C� OUT�
�100� μ� F�
�MAX639�
�MAX640�
�MAX653�
�MAX653�
�VFB� 7�
�GND�
�4�
�LBI�
�3�
�R4�
�Figure� 4.� Adjustable-Output� Operation�
�Step� 3:� L� =� 50� /� I� PEAK� .� L� will� be� in� μH.� Do� not� use� an�
�inductor� of� less� than� 100μH.�
�Step� 4:� Make� sure� that� I� PEAK� does� not� exceed� 0.6A� or�
�the� inductor� ’s� maximum� current� rating,�
�whichever� is� lower.�
�Inductor� series� resistance� affects� both� efficiency� and�
�dropout� voltage.� A� high� series� resistance� severely� limits�
�the� maximum� current� available� at� lower� input� voltages.�
�Output� currents� up� to� 225mA� are� possible� if� the� induc-�
�tor� has� low� series� resistance.� Inductor� and� series�
�switch� resistance� form� an� LR� circuit� during� t� ON� .� If� the�
�L/R� time� constant� is� less� than� the� oscillator� t� ON� ,� the�
�inductor’s� peak� current� will� fall� short� of� the� desired�
�I� PEAK� .�
�To� maximize� efficiency,� choose� the� highest-value�
�inductor� that� will� provide� the� required� output� current�
�over� the� whole� range� of� your� input� voltage� (see� Typical�
�Operating� Characteristics� ).� Inductors� with� peak� cur-�
�rents� in� the� 600mA� range� do� not� need� to� be� very� large.�
�They� are� about� the� size� of� a� 1W� resistor,� with� surface-�
�mount� versions� less� than� 5mm� in� diameter.� Table� 1� lists�
�suppliers� of� inductors� suitable� for� use� with� the�
�MAX639/MAX640/MAX653.�
�Output� Filter� Capacitor�
�The� MAX639/MAX640/MAX653’s� output� ripple� has� two�
�components.� One� component� results� from� the� variation�
�in� stored� charge� on� the� filter� capacitor� with� each� LX�
�pulse.� The� other� is� the� product� of� the� current� into� the�
�capacitor� and� the� capacitor’s� equivalent� series� resis-�
�tance� (ESR).�
�The� amount� of� charge� delivered� in� each� oscillator� pulse�
�is� determined� by� the� inductor� value� and� input� voltage.�
�Figure� 5.� Through-Hole� PC� Layout� and� Component� Placement�
�Diagram� for� Standard� Step-Down� Application� (Top-Side� View)�
�It� decreases� with� larger� inductance,� but� increases� as�
�the� input� voltage� lessens.� As� a� general� rule,� a� smaller�
�amount� of� charge� delivered� in� each� pulse� results� in�
�less� output� ripple.�
�With� low-cost� aluminum� electrolytic� capacitors,� the�
�ESR-induced� ripple� can� be� larger� than� that� caused� by�
�the� charge� variation.� Consequently,� high-quality� alu-�
�minum-electrolytic� or� tantalum� filter� capacitors� will� mini-�
�mize� output� ripple.� Best� results� at� reasonable� cost� are�
�typically� achieved� with� an� aluminum-electrolytic� capac-�
�itor� in� the� 100μF� range,� in� parallel� with� a� 0.1μF� ceramic�
�capacitor� (Table� 1).�
�External� Diode�
�In� most� MAX639/MAX640/MAX653� circuits,� the� current�
�in� the� external� diode� (D1,� Figure� 3)� changes� abruptly�
�from� zero� to� its� peak� value� each� time� LX� switches� off.�
�To� avoid� excessive� losses,� the� diode� must� have� a� fast�
�turn-on� time.� For� low-power� circuits� with� peak� currents�
�less� than� 100mA,� signal� diodes� such� as� the� 1N4148�
�perform� well.� The� 1N5817� diode� works� well� for� high-�
�power� circuits,� or� for� maximum� efficiency� at� low� power.�
�1N5817� equivalent� diodes� are� also� available� in� surface-�
�mount� packages� (Table� 1).� Although� the� 1N4001� and�
�other� general-purpose� rectifiers� are� rated� for� high� cur-�
�rents,� they� are� unacceptable� because� their� slow� turn-�
�off� times� result� in� excessive� losses.�
�Minimum� Load�
�Under� no-load� conditions,� because� of� leakage� from� the�
�PMOS� power� switch� (see� the� LX� Leakage� Current� vs.�
�Temperature� graph� in� the� Typical� Operating�
�Characteristics� )� and� from� the� internal� resistor� from� V+�
�to� V� OUT� ,� leakage� current� may� be� supplied� to� the� output�
�10�
�______________________________________________________________________________________�
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