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| 型号: | LT1945IMS#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 6/8页 |
| 文件大小: | 0K |
| 描述: | IC REG MULTI CONFIG ADJ 10MSOP |
| 标准包装: | 2,500 |
| 类型: | 升压(升压),反相,回扫,Sepic |
| 输出类型: | 可调式 |
| 输出数: | 2 |
| 输出电压: | 1.23 V ~ 36 V |
| 输入电压: | 1.2 V ~ 15 V |
| 电流 - 输出: | 350mA |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 10-MSOP |
��
�
�LT1945�
�APPLICATIONS� INFORMATION�
�I� PEAK� LIM� +� ?�
�?� V� IN� (� MAX� )� ?� V� SAT� ?�
�?� 100� ns�
�?� ?�
�L� =� 2� ?� OUT� D� ?� t� OFF�
�Inductor Selection—Inverting Regulator�
�The� formula� below� calculates� the� appropriate� inductor� value�
�to� be� used� for� an� inverting� regulator� using� the� LT1945� (or�
�at� least� provides� a� good� starting� point).� This� value� provides�
�a� good� tradeoff� in� inductor� size� and� system� performance.�
�Pick� a� standard� inductor� close� to� this� value� (both� inductors�
�should� be� the� same� value).� A� larger� value� can� be� used� to�
�slightly� increase� the� available� output� current,� but� limit� it� to�
�around� twice� the� value� calculated� below,� as� too� large� of� an�
�inductance� will� increase� the� output� voltage� ripple� without�
�providing� much� additional� output� current.� A� smaller� value�
�can� be� used� (especially� for� systems� with� output� voltages�
�greater� than� 12V)� to� give� a� smaller� physical� size.� Inductance�
�can� be� calculated� as:�
�?� V� +� V� ?�
�?� I� LIM� ?�
�where� V� D� =� 0.4V� (Schottky� diode� voltage),� I� LIM� =� 350mA�
�and� t� OFF� =� 400ns.�
�For� higher� output� voltages,� the� formula� above� will� give�
�large� inductance� values.� For� a� 2V� to� 20V� converter� (typical�
�LCD� bias� application),� a� 47μH� inductor� is� called� for� with� the�
�above� equation,� but� a� 10μH� or� 22μH� inductor� could� be� used�
�without� excessive� reduction� in� maximum� output� current.�
�Inductor� Selection—Inverting� Charge� Pump� Regulator�
�For� the� inverting� regulator,� the� voltage� seen� by� the� internal�
�power� switch� is� equal� to� the� sum� of� the� absolute� value� of�
�the� input� and� output� voltages,� so� that� generating� high� output�
�voltages� from� a� high� input� voltage� source� will� often� exceed�
�the� 36V� maximum� switch� rating.� For� instance,� a� 12V� to� –30V�
�converter� using� the� inverting� topology� would� generate� 42V�
�on� the� SW� pin,� exceeding� its� maximum� rating.� For� this� ap-�
�plication,� an� inverting� charge� pump� is� the� best� topology.�
�The� formula� below� calculates� the� approximate� inductor�
�value� to� be� used� for� an� inverting� charge� pump� regulator�
�using� the� LT1945.� As� for� the� boost� inductor� selection,�
�a� larger� or� smaller� value� can� be� used.� For� designs� with�
�varying� V� IN� such� as� battery� powered� applications,� use� the�
�minimum� V� IN� value� in� the� equation� below.�
�Current� Limit� Overshoot�
�For� the� constant� off-time� control� scheme� of� the� LT1945,�
�the� power� switch� is� turned� off� only� after� the� 350mA� current�
�limit� is� reached.� There� is� a� 100ns� delay� between� the� time�
�when� the� current� limit� is� reached� and� when� the� switch�
�actually� turns� off.� During� this� delay,� the� inductor� current�
�exceeds� the� current� limit� by� a� small� amount.� The� peak�
�inductor� current� can� be� calculated� by:�
�=� I�
�L�
�Where� V� SAT� =� 0.25V� (switch� saturation� voltage).� The� current�
�overshoot� will� be� most� evident� for� regulators� with� high� input�
�voltages� and� smaller� inductor� values.� This� overshoot� can�
�be� bene?cial� as� it� helps� increase� the� amount� of� available�
�output� current� for� smaller� inductor� values.� This� will� be� the�
�peak� current� seen� by� the� inductor� (and� the� diode)� during�
�normal� operation.� For� designs� using� small� inductance� values�
�(especially� at� input� voltages� greater� than� 5V),� the� current�
�limit� overshoot� can� be� quite� high.� Although� it� is� internally�
�current� limited� to� 350mA,� the� power� switch� of� the� LT1945�
�can� handle� larger� currents� without� problem,� but� the� overall�
�ef?ciency� will� suffer.� Best� results� will� be� obtained� when� I� PEAK�
�is� kept� below� 700mA� for� the� LT1945.�
�Capacitor� Selection�
�Low� ESR� (Equivalent� Series� Resistance)� capacitors� should�
�be� used� at� the� output� to� minimize� the� output� ripple� voltage.�
�X5R� or� X7R� multilayer� ceramic� capacitors� are� the� best�
�choice,� as� they� have� a� very� low� ESR� and� are� available� in�
�very� small� packages.� Y5V� ceramics� are� not� recommended.�
�Their� small� size� makes� them� a� good� companion� to� the�
�LT1945’s� MS10� package.� Solid� tantalum� capacitors� (like�
�the� AVX� TPS,� Sprague� 593D� families)� or� OS-CON� capacitors�
�can� be� used,� but� they� will� occupy� more� board� area� than� a�
�ceramic� and� will� have� a� higher� ESR.� Always� use� a� capacitor�
�with� a� suf?cient� voltage� rating.�
�Ceramic� capacitors� also� make� a� good� choice� for� the� input�
�decoupling� capacitor,� which� should� be� placed� as� close�
�as� possible� to� the� LT1945.� A� 4.7μF� input� capacitor� is�
�suf?cient� for� most� applications.� Table� 2� shows� a� list� of�
�L� =�
�V� OUT� ?� V� IN� (� MIN� )� +� V� D�
�I� LIM�
�t� OFF�
�several� capacitor� manufacturers.� Consult� the� manufacturers�
�for� more� detailed� information� and� for� their� entire� selection�
�1945fa�
�6�
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| LT1946AEMS8E | 功能描述:IC REG BOOST ADJ 1.5A 8MSOP RoHS:否 类别:集成电路 (IC) >> PMIC - 稳压器 - DC DC 开关稳压器 系列:- 标准包装:500 系列:- 类型:切换式电容器(充电泵),反相 输出类型:固定 输出数:1 输出电压:-3V 输入电压:2.3 V ~ 5.5 V PWM 型:Burst Mode? 频率 - 开关:900kHz 电流 - 输出:100mA 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:SOT-23-6 细型,TSOT-23-6 包装:带卷 (TR) 供应商设备封装:TSOT-23-6 其它名称:LTC1983ES6-3#TRMTR |
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