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| 型号: | LTC1261CS8-4.5#TR |
| 厂商: | Linear Technology |
| 文件页数: | 9/18页 |
| 文件大小: | 0K |
| 描述: | IC REG SWITCHED CAP INV 8SOIC |
| 标准包装: | 2,500 |
| 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: | -4.5V |
| 输入电压: | 3 V ~ 8 V |
| 频率 - 开关: | 550kHz |
| 电流 - 输出: | 15mA |
| 同步整流器: | 无 |
| 工作温度: | 0°C ~ 70°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 |
��
�
�LTC1261�
�APPLICATIONS� INFORMATION�
�C1�
�OUT�
�1μF�
�0.1μF�
�2�
�5V�
�V� CC�
�+�
�LTC1261CS8-4�
�6�
�10�
�V� OUT� =� –4V�
�each� clock� cycle.� The� smaller� capacitors� draw� smaller�
�pulses� of� current� out� of� V� CC� as� well,� limiting� peak� cur-�
�rents� and� reducing� the� demands� on� the� input� supply.�
�Table� 1� shows� recommended� values� of� flying� capacitor�
�vs� maximum� load� capacity.�
�3�
�C1� –�
�COMP�
�GND�
�5�
�100pF�
�3.3μF�
�3.3μF�
�Table� 1.� Typical� Max� Load� (mA)� vs� Flying� Capacitor� Value� at�
�T� A� =� 25°C,� V� OUT� =� –� 4V�
�4�
�LTC1261� ?� F04�
�FLYING�
�CAPACITOR�
�VALUE� (μF)�
�MAX� LOAD� (mA)�
�V� CC� =� 5V� DOUBLER� MODE�
�MAX� LOAD� (mA)�
�V� CC� =� 3.3V� TRIPLER� MODE�
�Figure� 4.� Output� Filter� Cuts� Ripple� Below� 3mV�
�CAPACITOR� SELECTION�
�Capacitor� Sizing�
�0.1�
�0.047�
�0.033�
�0.022�
�0.01�
�22�
�16�
�8�
�4�
�1�
�20�
�15�
�11�
�5�
�3�
�The� performance� of� the� LTC1261� can� be� affected� by� the�
�capacitors� it� is� connected� to.� The� LTC1261� requires� bypass�
�capacitors� to� ground� for� both� the� V� CC� and� OUT� pins.� The�
�input� capacitor� provides� most� of� LTC1261’s� supply� current�
�while� it� is� charging� the� flying� capacitors.� This� capacitor�
�should� be� mounted� as� close� to� the� package� as� possible�
�and� its� value� should� be� at� least� five� times� larger� than� the�
�flying� capacitor.� Ceramic� capacitors� generally� provide�
�adequate� performance� but� avoid� using� a� tantalum� capaci-�
�tor� as� the� input� bypass� unless� there� is� at� least� a� 0.1μF�
�ceramic� capacitor� in� parallel� with� it.� The� charge� pump�
�capacitors� are� somewhat� less� critical� since� their� peak�
�currents� are� limited� by� the� switches� inside� the� LTC1261.�
�Most� applications� should� use� 0.1μF� as� the� flying� capaci-�
�tor� value.� Conveniently,� ceramic� capacitors� are� the� most�
�common� type� of� 0.1μF� capacitor� and� they� work� well� here.�
�Usually� the� easiest� solution� is� to� use� the� same� capacitor�
�type� for� both� the� input� bypass� and� the� flying� capacitors.�
�In� applications� where� the� maximum� load� current� is� well-�
�defined� and� output� ripple� is� critical� or� input� peak� currents�
�need� to� be� minimized,� the� flying� capacitor� values� can� be�
�tailored� to� the� application.� Reducing� the� value� of� the� flying�
�capacitors� reduces� the� amount� of� charge� transferred� with�
�each� clock� cycle.� This� limits� maximum� output� current,� but�
�also� cuts� the� size� of� the� voltage� step� at� the� output� with�
�The� output� capacitor� performs� two� functions:� it� provides�
�output� current� to� the� load� during� half� of� the� charge� pump�
�cycle� and� its� value� helps� to� set� the� output� ripple� voltage.�
�For� applications� that� are� insensitive� to� output� ripple,� the�
�output� bypass� capacitor� can� be� as� small� as� 1μF.� To� achieve�
�specified� output� ripple� with� 0.1μF� flying� capacitors,� the�
�output� capacitor� should� be� at� least� 3.3μF.� Larger� output�
�capacitors� will� reduce� output� ripple� further� at� the� expense�
�of� turn-on� time.�
�Capacitor� ESR�
�Output� capacitor� Equivalent� Series� Resistance� (ESR)� is�
�another� factor� to� consider.� Excessive� ESR� in� the� output�
�capacitor� can� fool� the� regulation� loop� into� keeping� the�
�output� artificially� low� by� prematurely� terminating� the�
�charging� cycle.� As� the� charge� pump� switches� to� recharge�
�the� output� a� brief� surge� of� current� flows� from� the� flying�
�capacitors� to� the� output� capacitor.� This� current� surge� can�
�be� as� high� as� 100mA� under� full� load� conditions.� A� typical�
�3.3μF� tantalum� capacitor� has� 1Ω� or� 2Ω� of� ESR;� 100mA�
�?� 2Ω� =� 200mV.� If� the� output� is� within� 200mV� of� the� set�
�point� this� additional� 200mV� surge� will� trip� the� feedback�
�comparator� and� terminate� the� charging� cycle.� The� pulse�
�dissipates� quickly� and� the� comparator� returns� to� the�
�correct� state,� but� the� RS� latch� will� not� allow� the� charge�
�1261fb�
�For� more� information� www.linear.com/LTC1261�
�9�
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