参数资料
| 型号: | NCP1421DMR2 |
| 厂商: | ON Semiconductor |
| 文件页数: | 9/14页 |
| 文件大小: | 0K |
| 描述: | IC REG BST SYNC ADJ 0.6A 8MICRO |
| 产品变化通告: | LTB Notification 03/Jan/2008 |
| 标准包装: | 1 |
| 类型: | 升压(升压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 1.5 V ~ 5 V |
| 输入电压: | 1 V ~ 5 V |
| 频率 - 开关: | 1.2MHz |
| 电流 - 输出: | 600mA |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-TSSOP,8-MSOP(0.118",3.00mm 宽) |
| 包装: | 剪切带 (CT) |
| 供应商设备封装: | Micro8? |
| 其它名称: | NCP1421DMR2OSCT |
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�NCP1421�
�DETAILED� OPERATION� DESCRIPTION�
�NCP1421� is� a� monolithic� micropower� high?frequency�
�step?up� voltage� switching� converter� IC� specially� designed�
�for� battery� operated� hand?held� electronic� products� up� to�
�600� mA� loading.� It� integrates� a� Synchronous� Rectifier� to�
�improve� efficiency� as� well� as� to� eliminate� the� external�
�Schottky� diode.� High� switching� frequency� (up� to� 1.2� MHz)�
�allows� for� a� low� profile� inductor� and� output� capacitor� to� be�
�used.� Low?Battery� Detector,� Logic?Controlled� Shutdown,�
�and� Cycle?by?Cycle� Current� Limit� provide� value?added�
�features� for� various� battery?operated� applications.� With� all�
�these� functions� ON,� the� quiescent� supply� current� is�
�typically� only� 8.5� m� A.� This� device� is� available� in� a� compact�
�Micro8� package.�
�PFM� Regulation� Scheme�
�From� the� simplified� functional� diagram� (Figure� 1),� the�
�output� voltage� is� divided� down� and� fed� back� to� pin� 1� (FB).�
�This� voltage� goes� to� the� non?inverting� input� of� the� PFM�
�comparator� whereas� the� comparator� ’s� inverting� input� is�
�connected� to� the� internal� voltage� reference,� REF.� A�
�switching� cycle� is� initiated� by� the� falling� edge� of� the�
�comparator,� at� the� moment� the� main� switch� (M1)� is� turned�
�ON.� After� the� maximum� ON?time� (typically� 0.72� m� S)�
�elapses� or� the� current� limit� is� reached,� M1� is� turned� OFF�
�and� the� synchronous� switch� (M2)� is� turned� ON.� The� M1�
�OFF� time� is� not� less� than� the� minimum� OFF?time�
�(typically� 0.12� m� S),� which� ensures� complete� energy�
�transfer� from� the� inductor� to� the� output� capacitor.� If� the�
�regulator� is� operating� in� Continuous� Conduction� Mode�
�(CCM),� M2� is� turned� OFF� just� before� M1� is� supposed� to� be�
�ON� again.� If� the� regulator� is� operating� in� Discontinuous�
�Conduction� Mode� (DCM),� which� means� the� coil� current�
�will� decrease� to� zero� before� the� new� cycle� starts,� M1� is�
�turned� OFF� as� the� coil� current� is� almost� reaching� zero.� The�
�comparator� (ZLC)� with� fixed� offset� is� dedicated� to� sense�
�the� voltage� drop� across� M2� as� it� is� conducting;� when� the�
�voltage� drop� is� below� the� offset,� the� ZLC� comparator�
�output� goes� HIGH� and� M2� is� turned� OFF.� Negative�
�feedback� of� closed?loop� operation� regulates� voltage� at�
�pin� 1� (FB)� equal� to� the� internal� reference� voltage� (1.20� V).�
�Synchronous� Rectification�
�The� Synchronous� Rectifier� is� used� to� replace� the�
�Schottky� Diode� to� reduce� the� conduction� loss� contributed�
�by� the� forward� voltage� of� the� Schottky� Diode.� The�
�Synchronous� Rectifier� is� normally� realized� by� powerFET�
�with� gate� control� circuitry� that� incorporates� relatively�
�complicated� timing� concerns.�
�As� the� main� switch� (M1)� is� being� turned� OFF� and� the�
�synchronous� switch� M2� is� just� turned� ON� with� M1� not�
�being� completely� turned� OFF,� current� is� shunt� from� the�
�output� bulk� capacitor� through� M2� and� M1� to� ground.� This�
�power� loss� lowers� overall� efficiency� and� possibly� damages�
�the� switching� FETs.� As� a� general� practice,� a� certain� amount�
�of� dead� time� is� introduced� to� make� sure� M1� is� completely�
�turned� OFF� before� M2� is� being� turned� ON.�
�The� previously� mentioned� situation� occurs� when� the�
�regulator� is� operating� in� CCM,� M2� is� being� turned� OFF,� M1�
�is� just� turned� ON,� and� M2� is� not� being� completely� turned�
�OFF.� A� dead� time� is� also� needed� to� make� sure� M2� is�
�completely� turned� OFF� before� M1� is� being� turned� ON.�
�As� coil� current� is� dropped� to� zero� when� the� regulator� is�
�operating� in� DCM,� M2� should� be� OFF.� If� this� does� not�
�occur,� the� reverse� current� flows� from� the� output� bulk�
�capacitor� through� M2� and� the� inductor� to� the� battery� input,�
�causing� damage� to� the� battery.� The� ZLC� comparator� comes�
�with� fixed� offset� voltage� to� switch� M2� OFF� before� any�
�reverse� current� builds� up.� However,� if� M2� is� switched� OFF�
�too� early,� large� residue� coil� current� flows� through� the� body�
�diode� of� M2� and� increases� conduction� loss.� Therefore,�
�determination� of� the� offset� voltage� is� essential� for� optimum�
�performance.� With� the� implementation� of� the� synchronous�
�rectification� scheme,� efficiency� can� be� as� high� as� 94%� with�
�this� device.�
�Cycle?by?Cycle� Current� Limit�
�In� Figure� 1,� a� SENSEFET� is� used� to� sample� the� coil�
�current� as� M1� is� ON.� With� that� sample� current� flowing�
�through� a� sense� resistor,� a� sense?voltage� is� developed.� The�
�threshold� detector� (I� LIM� )� detects� whether� the�
�sense?voltage� is� higher� than� the� preset� level.� If� the� sense�
�voltage� is� higher� than� the� present� level,� the� detector� output�
�notifies� the� Control� Logic� to� switch� OFF� M1,� and� M1� can�
�only� be� switched� ON� when� the� next� cycle� starts� after� the�
�minimum� OFF?time� (typically� 0.12� m� S).� With� proper�
�sizing� of� the� SENSEFET� and� sense� resistor,� the� peak� coil�
�current� limit� is� typically� set� at� 1.5� A.�
�Voltage� Reference�
�The� voltage� at� REF� is� typically� set� at� 1.20� V� and� can�
�output� up� to� 2.5� mA� with� load� regulation� ±� 2%� at� V� OUT�
�equal� to� 3.3� V.� If� V� OUT� is� increased,� the� REF� load�
�capability� can� also� be� increased.� A� bypass� capacitor� of�
�200� nF� is� required� for� proper� operation� when� REF� is� not�
�loaded.� If� REF� is� loaded,� a� 1.0� m� F� capacitor� at� the� REF� pin�
�is� needed.�
�True?Cutoff�
�The� NCP1421� has� a� True?Cutoff� function� controlled� by�
�the� multi?function� pin� LBI/EN� (pin� 2).� Internal� circuitry�
�can� isolate� the� current� through� the� body� diode� of� switch� M2�
�to� load.� Thus,� it� can� eliminate� leakage� current� from� the�
�battery� to� load� in� shutdown� mode� and� significantly� reduce�
�battery� current� consumption� during� shutdown.� The�
�shutdown� function� is� controlled� by� the� voltage� at� pin� 2�
�(LBI/EN).� When� pin� 2� is� pulled� to� lower� than� 0.3� V,� the�
�controller� enters� shutdown� mode.� In� shutdown� mode,� when�
�switches� M1� and� M2� are� both� switched� OFF,� the� internal�
�http://onsemi.com�
�9�
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