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| 型号: | MAX1706EEE+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 16/18页 |
| 文件大小: | 0K |
| 描述: | IC REG BOOST ADJ 0.4A 16QSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 类型: | 升压(升压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 2.5 V ~ 5.5 V |
| 输入电压: | 0.7 V ~ 5.5 V |
| 频率 - 开关: | 260kHz ~ 340kHz |
| 电流 - 输出: | 400mA |
| 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: | 16-SSOP(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 16-QSOP |
��
�
�1-� to� 3-Cell,� High-Current,� Low-Noise,�
�Step-Up� DC-DC� Converters� with� Linear� Regulator�
�reduces� peak� currents� drawn� from� the� input� source�
�and� reduces� input� switching� noise.� The� input� voltage�
�Table� 4.� Component� Suppliers�
�source� impedance� determines� the� size� required� for� the�
�input� capacitor.� When� operating� directly� from� one� or�
�two� NiCd� cells� placed� close� to� the� MAX1705/MAX1706,�
�use� a� 22μF,� low-ESR� input� filter� capacitor.� When�
�operating� from� a� power� source� placed� farther� away,� or�
�from� higher� impedance� batteries,� consider� using� one� or�
�two� 100μF,� 100m� ?� ,� low-ESR� tantalum� capacitors.�
�Low-ESR� capacitors� are� recommended.� Capacitor� ESR�
�is� a� major� contributor� to� output� ripple—often� more� than�
�70%.�
�Ceramic,� Sanyo� OS-CON,� and� Panasonic� SP/CB-series�
�capacitors� offer� the� lowest� ESR.� Low-ESR� tantalum�
�SUPPLIER�
�AVX�
�Coilcraft�
�Matsuo�
�Motorola�
�Sanyo�
�Sumida�
�PHONE�
�USA:� 803-946-0690�
�800-282-4975�
�USA:� 847-� 639-6400�
�USA:� 714-969-2491�
�USA:� 602-303-5454�
�USA:� 619-661-6835�
�Japan:� 81-7-2070-6306�
�USA:� 847-956-0666�
�Japan:� 81-3-3607-5111�
�FAX�
�803-626-3123�
�847-639-1469�
�714-960-6492�
�602-994-6430�
�619-661-1055�
�81-7-2070-1174�
�847-956-0702�
�81-3-3607-5144�
�capacitors� are� second� best� and� generally� offer� a� good�
�trade-off� between� price� and� performance.� Do� not�
�exceed� the� ripple-current� ratings� of� tantalum� capaci-�
�tors.� Avoid� aluminum-electrolytic� capacitors,� since� their�
�ESR� is� too� high.�
�Adding� Bypass� Capacitors�
�Several� ceramic� bypass� capacitors� are� required� for�
�proper� operation� of� the� MAX1705/MAX1706.� Bypass�
�REF� with� a� 0.33μF� capacitor� to� GND.� Connect� a� 0.1μF�
�ceramic� capacitor� from� OUT� to� GND� and� a� 0.33μF�
�ceramic� capacitor� from� POUT� to� PGND.� Place� a� 22μF,�
�low-ESR� capacitor� and� an� optional� 0.33μF� ceramic�
�capacitor� from� the� linear-regulator� output� LDO� to� GND.�
�An� optional� 22pF� ceramic� capacitor� can� be� added� to�
�the� linear-regulator� feedback� network� to� reduce� noise�
�(C2,� Figure� 2).� Place� each� of� these� as� close� to� their�
�respective� pins� as� possible,� within� 0.2in.� (5mm)� of� the�
�DC-DC� converter� IC.� High-value,� low-voltage,� surface-�
�mount� ceramic� capacitors� are� now� readily� available� in�
�small� packages;� see� Table� 4� for� suggested� suppliers.�
�Designing� a� PC� Board�
�High� switching� frequencies� and� large� peak� currents�
�make� PC� board� layout� an� important� part� of� design.�
�Poor� design� can� cause� excessive� EMI� and� ground-�
�bounce,� both� of� which� can� cause� instability� or�
�regulation� errors� by� corrupting� voltage-� and� current-�
�feedback� signals.� It� is� highly� recommended� that� the� PC�
�board� example� of� the� MAX1705� evaluation� kit� (EV� kit)�
�be� followed.�
�Power� components—such� as� the� inductor,� converter�
�IC,� filter� capacitors,� and� output� diode� —should� be�
�placed� as� close� together� as� possible,� and� their� traces�
�should� be� kept� short,� direct,� and� wide.� Place� the� LDO�
�output� capacitor� as� close� to� the� LDO� pin� as� possible.�
�Make� the� connection� between� POUT� and� OUT� very�
�short.� Keep� the� extra� copper� on� the� board,� and� inte-�
�grate� it� into� ground� as� a� pseudo-ground� plane.�
�On� multilayer� boards,� do� not� connect� the� ground� pins�
�of� the� power� components� using� vias� through� an� internal�
�ground� plane.� Instead,� place� them� close� together� and�
�route� them� in� a� star-ground� configuration� using� compo-�
�nent-side� copper.� Then� connect� the� star� ground� to� the�
�internal� ground� plane� using� vias.�
�Keep� the� voltage-feedback� networks� very� close� to� the�
�MAX1705/MAX1706—within� 0.2in.� (5mm)� of� the� FB� and�
�FBLDO� pins.� Keep� noisy� traces,� such� as� from� the� LX�
�pin,� away� from� the� reference� and� voltage-feedback� net-�
�works,� especially� the� LDO� feedback,� and� separated�
�from� them� using� grounded� copper.� Consult� the�
�MAX1705/MAX1706� EV� kit� for� a� full� PC� board� example.�
�Applications� Information�
�Use� in� a� Typical�
�Wireless� Phone� Application�
�The� MAX1705/MAX1706� are� ideal� for� use� in� digital� cord-�
�less� and� PCS� phones.� The� power� amplifier� (PA)� is� con-�
�nected� directly� to� the� step-up� converter� output� for�
�maximum� voltage� swing� (Figure� 10).� The� internal� linear�
�regulator� is� used� for� postregulation� to� generate� low-�
�noise� power� for� DSP,� control,� and� RF� circuitry.� Typically,�
�RF� phones� spend� most� of� their� life� in� standby� mode� and�
�short� periods� in� transmit/receive� mode.� During� standby,�
�maximize� battery� life� by� setting� CLK/SEL� =� GND� and�
�TRACK� =� OUT;� this� places� the� IC� in� PFM� and� track�
�modes� (for� lowest� quiescent� power� consumption).� In�
�transmit/receive� mode,� set� TRACK� =� GND� and� CLK/SEL�
�=� OUT� to� increase� the� PA� supply� voltage� and� initiate�
�high-power,� low-noise� PWM� operation.� Table� 5� lists� the�
�typical� available� output� current� when� operating� with�
�one� or� more� NiCd/NiMH� cells� or� one� Li-Ion� cell.�
�16�
�______________________________________________________________________________________�
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