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| 型号: | MAX660CSA |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 7/12页 |
| 文件大小: | 0K |
| 描述: | IC REG SWITCHD CAP DBL INV 8SOIC |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 100 |
| 类型: | 切换式电容器(充电泵),倍增器,反相 |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | -1.5 V ~ -5.5 V,3 V ~ 11 V |
| 输入电压: | 1.5 V ~ 5.5 V |
| 频率 - 开关: | 10kHz,80kHz |
| 电流 - 输出: | 100mA |
| 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: | 管件 |
| 供应商设备封装: | 8-SOIC |
��
�
�CMOS� Monolithic� Voltage� Converter�
�frequency� eight� times.� In� the� third� mode,� the� oscillator�
�frequency� is� lowered� by� connecting� a� capacitor�
�between� OSC� and� GND.� FC� can� still� multiply� the� fre-�
�quency� by� eight� times� in� this� mode,� but� for� a� lower�
�range� of� frequencies� (see� Typical� Operating�
�Characteristics� ).�
�In� the� inverter� mode,� OSC� may� also� be� overdriven� by� an�
�external� clock� source� that� swings� within� 100mV� of� V+�
�and� GND.� Any� standard� CMOS� logic� output� is� suitable�
�for� driving� OSC.� When� OSC� is� overdriven,� FC� has� no�
�effect.� Also,� LV� must� be� grounded� when� overdriving�
�OSC.� Do� not� overdrive� OSC� in� voltage-doubling� mode.�
�Note:� In� all� modes,� the� frequency� of� the� signal� appear-�
�ing� at� CAP+� and� CAP-� is� one-half� that� of� the� oscillator.�
�20�
�18�
�16�
�14�
�12�
�10�
�8�
�6�
�4�
�2�
�ESR� =� 0.25� ?�
�FOR� BOTH�
�C1� AND� C2�
�MAX660� OUTPUT�
�SOURCE� RESISTANCE�
�ASSUMED� TO� BE�
�5.25� ?�
�Also,� an� undesirable� effect� of� lowering� the� oscillator� fre-�
�quency� is� that� the� effective� output� resistance� of� the�
�charge� pump� increases.� This� can� be� compensated� by�
�0�
�1�
�2�
�4� 6� 8� 10� 100�
�CAPACITANCE� (� μ� F)�
�1000�
�increasing� the� value� of� the� charge-pump� capacitors�
�(see� Capacitor� Selection� section� and� Typical� Operating�
�Characteristics� ).�
�In� some� applications,� the� 5kHz� output� ripple� frequency�
�may� be� low� enough� to� interfere� with� other� circuitry.� If�
�desired,� the� oscillator� frequency� can� then� be� increased�
�through� use� of� the� FC� pin� or� an� external� oscillator� as�
�described� above.� The� output� ripple� frequency� is� one-�
�half� the� selected� oscillator� frequency.� Increasing� the�
�clock� frequency� increases� the� MAX660’s� quiescent�
�current,� but� also� allows� smaller� capacitance� values� to�
�be� used� for� C1� and� C2.�
�________________Capacitor� Selection�
�Three� factors� (in� addition� to� load� current)� affect� the�
�MAX660� output� voltage� drop� from� its� ideal� value:�
�1)� MAX660� output� resistance�
�2)� Pump� (C1)� and� reservoir� (C2)� capacitor� ESRs�
�3)� C1� and� C2� capacitance�
�The� voltage� drop� caused� by� MAX660� output� resistance�
�is� the� load� current� times� the� output� resistance.�
�Similarly,� the� loss� in� C2� is� the� load� current� times� C2’s�
�ESR.� The� loss� in� C1,� however,� is� larger� because� it�
�handles� currents� that� are� greater� than� the� load� current�
�during� charge-pump� operation.� The� voltage� drop� due�
�to� C1� is� therefore� about� four� times� C1’s� ESR� multiplied�
�by� the� load� current.� Consequently,� a� low� (or� high)� ESR�
�capacitor� has� a� much� greater� impact� on� performance�
�for� C1� than� for� C2.�
�Generally,� as� the� pump� frequency� of� the� MAX660�
�increases,� the� capacitance� values� required� to� maintain�
�comparable� ripple� and� output� resistance� diminish� pro-�
�portionately.� The� curves� of� Figure� 2� show� the� total� circuit�
�Figure� 2.� Total� Output� Source� Resistance� vs.� C1� and� C2�
�Capacitance� (C1� =� C2)�
�output� resistance� for� various� capacitor� values� (the� pump�
�and� reservoir� capacitors’� values� are� equal)� and� oscillator�
�frequencies.� These� curves� assume� 0.25� ?� capacitor� ESR�
�and� a� 5.25� ?� MAX660� output� resistance,� which� is� why�
�the� flat� portion� of� the� curve� shows� a� 6.5� ?� (R� O� MAX660� +�
�4� (ESR� C1� )� +� ESR� C2� )� effective� output� resistance.� Note:�
�R� O� =� 5.25� ?� is� used,� rather� than� the� typical� 6.5� ?� ,�
�because� the� typical� specification� includes� the� effect� of�
�the� ESRs� of� the� capacitors� in� the� test� circuit.�
�In� addition� to� the� curves� in� Figure� 2,� four� bar� graphs� in�
�the� Typical� Operating� Characteristics� show� output� cur-�
�rent� for� capacitances� ranging� from� 0.33μF� to� 220μF.�
�Output� current� is� plotted� for� inputs� of� 4.5V� (5V-10%)� and�
�3.0V� (3.3V-10%),� and� allow� for� 10%� and� 20%� output�
�droop� with� each� input� voltage.� As� can� be� seen� from� the�
�graphs,� the� MAX660� 6.5� ?� series� resistance� limits�
�increases� in� output� current� vs.� capacitance� for� values�
�much� above� 47μF.� Larger� values� may� still� be� useful,�
�however,� to� reduce� ripple.�
�To� reduce� the� output� ripple� caused� by� the� charge�
�pump,� increase� the� reservoir� capacitor� C2� and/or�
�reduce� its� ESR.� Also,� the� reservoir� capacitor� must� have�
�low� ESR� if� filtering� high-frequency� noise� at� the� output� is�
�important.�
�Not� all� manufacturers� guarantee� capacitor� ESR� in� the�
�range� required� by� the� MAX660.� In� general,� capacitor� ESR�
�is� inversely� proportional� to� physical� size,� so� larger� capaci-�
�tance� values� and� higher� voltage� ratings� tend� to� reduce�
�ESR.�
�_______________________________________________________________________________________�
�7�
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| MAX660CSA+ | 功能描述:电荷泵 CMOS Monolithic Voltage Converter RoHS:否 制造商:Maxim Integrated 功能:Inverting, Step Up 输出电压:- 1.5 V to - 5.5 V, 3 V to 11 V 输出电流:100 mA 电源电流:1 mA 最大工作温度:+ 70 C 封装 / 箱体:SOIC-8 Narrow 封装:Tube |
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