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| 型号: | LTC1754ES6-3.3#TR |
| 厂商: | Linear Technology |
| 文件页数: | 7/12页 |
| 文件大小: | 0K |
| 描述: | IC REG SWITCHED CAP 3.3V SOT23-6 |
| 标准包装: | 2,500 |
| 类型: | 切换式电容器(充电泵) |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 3.3V |
| 输入电压: | 2 V ~ 4.4 V |
| PWM 型: | Burst Mode? |
| 频率 - 开关: | 600kHz |
| 电流 - 输出: | 40mA |
| 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 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | SOT-23-6 |
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�
�LTC1754-3.3/LTC1754-5�
�APPLICATIO� S� I� FOR� ATIO�
�range.� The� capacitor� manufacturer’s� data� sheet� should� be�
�consulted� to� determine� what� style� and� value� of� capacitor�
�is� needed� to� ensure� 0.6� μ� F� at� all� temperatures.�
�V� OUT�
�LTC1754-X�
�+�
�15� μ� F�
�TANTALUM�
�1� μ� F�
�CERAMIC�
�V� OUT�
�Output� Ripple�
�Low� frequency� regulation� mode� ripple� exists� due� to� the�
�hysteresis� in� the� sense� comparator� and� propagation� delay�
�V� OUT�
�LTC1754-X�
�+�
�2� ?�
�10� μ� F�
�TANTALUM�
�+�
�V� OUT�
�10� μ� F�
�TANTALUM�
�1754� F01�
�in� the� charge� pump� control� circuit.� The� amplitude� and�
�frequency� of� this� ripple� are� heavily� dependent� on� the� load�
�current,� the� input� voltage� and� the� output� capacitor� size.�
�For� large� V� IN� the� ripple� voltage� can� become� substantial�
�because� the� increased� strength� of� the� charge� pump� causes�
�fast� edges� that� may� outpace� the� regulation� circuitry.�
�Generally� the� regulation� ripple� has� a� sawtooth� shape�
�associated� with� it.�
�A� high� frequency� ripple� component� may� also� be� present�
�on� the� output� capacitor� due� to� the� charge� transfer� action�
�of� the� charge� pump.� In� this� case� the� output� can� display� a�
�voltage� pulse� during� the� charging� phase.� This� pulse�
�results� from� the� product� of� the� charging� current� and� the�
�ESR� of� the� output� capacitor.� It� is� proportional� to� the� input�
�voltage,� the� value� of� the� flying� capacitor� and� the� ESR� of� the�
�output� capacitor.�
�Typical� combined� output� ripple� for� the� LTC1754-5� with�
�V� IN� =� 3V� under� maximum� load� is� 65mV� P-P� using� a� low� ESR�
�10� μ� F� output� capacitor.� A� smaller� output� capacitor� and/or�
�larger� output� current� load� will� result� in� higher� ripple� due� to�
�higher� output� voltage� slew� rates.�
�There� are� several� ways� to� reduce� output� voltage� ripple.� For�
�applications� requiring� higher� V� IN� or� lower� peak-to-peak�
�ripple,� a� larger� C� OUT� capacitor� (22� μ� F� or� greater)� is� recom-�
�mended.� A� larger� capacitor� will� reduce� both� the� low� and�
�high� frequency� ripple� due� to� the� lower� charging� and�
�discharging� slew� rates,� as� well� as� the� lower� ESR� typically�
�found� with� higher� value� (larger� case� size)� capacitors.� A� low�
�ESR� ceramic� output� capacitor� will� minimize� the� high�
�frequency� ripple,� but� will� not� reduce� the� low� frequency�
�ripple� unless� a� high� capacitance� value� is� used.� To� reduce�
�both� the� low� and� high� frequency� ripple,� a� reasonable�
�compromise� is� to� use� a� 10� μ� F� to� 22� μ� F� tantalum� capacitor�
�in� parallel� with� a� 1� μ� F� to� 3.3� μ� F� ceramic� capacitor� on� V� OUT� .�
�An� R-C� filter� may� also� be� used� to� reduce� high� frequency�
�voltage� spikes� (see� Figure� 1).�
�Figure� 1.� Output� Ripple� Reduction� Techniques�
�In� low� load� or� high� V� IN� applications,� smaller� values� for� the�
�flying� capacitor� may� be� used� to� reduce� output� ripple.� A�
�smaller� flying� capacitor� (0.01� μ� F� to� 0.47� μ� F)� delivers� less�
�charge� per� clock� cycle� to� the� output� capacitor� resulting� in�
�lower� output� ripple.� However,� with� a� smaller� flying� capaci-�
�tor,� the� maximum� available� output� current� will� be� reduced�
�along� with� the� efficiency.�
�Note� that� when� using� a� larger� output� capacitor� the� turn� on�
�time� of� the� device� will� increase.�
�Inrush� Currents�
�During� normal� operation� V� IN� will� experience� current� tran-�
�sients� in� the� 50mA� to� 100mA� range� whenever� the� charge�
�pump� is� enabled.� However� during� start-up,� inrush� cur-�
�rents� may� approach� 250mA.� For� this� reason� it� is� important�
�to� minimize� the� source� impedance� between� the� input�
�supply� and� the� V� IN� pin.� Too� much� source� impedance� may�
�result� in� regulation� problems� or� prevent� start-up.�
�Ultralow� Quiescent� Current� Regulated� Supply�
�The� LTC1754� contains� an� internal� resistor� divider� (refer� to�
�the� Simplified� Block� Diagram)� that� typically� draws� 1.5� μ� A�
�from� V� OUT� .� During� no-load� conditions,� this� internal� load�
�causes� a� droop� rate� of� only� 150mV� per� second� on� V� OUT�
�with� C� OUT� =� 10� μ� F.� Applying� a� 2Hz� to� 100Hz,� 2%� to� 5%� duty�
�cycle� signal� to� the� SHDN� pin� ensures� that� the� circuit� of�
�Figure� 2� comes� out� of� shutdown� frequently� enough� to�
�maintain� regulation.� Since� the� LTC1754� spends� nearly� the�
�entire� time� in� shutdown,� the� no-load� quiescent� current� is�
�approximately� (V� OUT� )(1.5� μ� A)/(� η� V� IN� ).�
�The� LTC1754� must� be� out� of� shutdown� for� a� minimum�
�duration� of� 200� μ� s� to� allow� enough� time� to� sense� the� output�
�voltage� and� keep� it� in� regulation.� A� 2Hz,� 2%� duty� cycle�
�7�
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| LTC1754ES6-5#TR | 功能描述:IC REG SWITCHED CAP 5V SOT23-6 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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