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参数资料
| 型号: | LTC3216EDE#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 8/12页 |
| 文件大小: | 0K |
| 描述: | IC CHARGE PUMP LED 12-DFN |
| 标准包装: | 91 |
| 应用: | 转换器,高电流 LED |
| 输入电压: | 2.9 V ~ 4.4 V |
| 输出数: | 1 |
| 输出电压: | 多重 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 12-WFDFN 裸露焊盘 |
| 供应商设备封装: | 12-DFN(4x3) |
| 包装: | 管件 |
��
�
�LTC3216�
�OPERATION�
�whenever� a� dropout� condition� is� detected� at� the� I� LED� pin.�
�In� the� LOW� current� mode,� the� part� will� wait� approximately�
�150ms� after� dropout� is� detected� before� switching� to� the�
�next� mode.� In� the� HIGH� and� LOW� +� HIGH� current� modes,�
�the� part� will� wait� approximately� 2ms� before� switching� to�
�the� next� mode.� These� delays� allow� the� LED� to� warm� up�
�and� reduce� its� forward� voltage� which� may� remove� the�
�dropout� condition.�
�APPLICATIONS� INFORMATION�
�V� IN� ,� CPO� Capacitor� Selection�
�The� style� and� value� of� capacitors� used� with� the� LTC3216�
�determine� several� important� parameters� such� as� regulator�
�control� loop� stability,� output� ripple,� charge� pump� strength�
�and� minimum� start-up� time.�
�To� reduce� noise� and� ripple,� it� is� recommended� that� low�
�equivalent� series� resistance� (ESR)� ceramic� capacitors� be�
�used� for� both� C� VIN� and� C� CPO� .� Tantalum� and� aluminum�
�capacitors� are� not� recommended� because� of� their� high�
�ESR.�
�The� value� of� C� CPO� directly� controls� the� amount� of� output�
�ripple� for� a� given� load� current.� Increasing� the� size� of�
�C� CPO� will� reduce� the� output� ripple� at� the� expense� of� higher�
�start-up� current.� The� peak-to-peak� output� ripple� for� 1.5x�
�mode� is� approximately� given� by� the� expression:�
�V� RIPPLE(P-P)� =� I� OUT� /(3f� OSC� ?� C� CPO� )� (3)�
�Where� f� OSC� is� the� LTC3216’s� oscillator� frequency� (typically�
�900kHz)� and� C� CPO� is� the� output� storage� capacitor.�
�Both� the� style� and� value� of� the� output� capacitor� can� sig-�
�ni?cantly� affect� the� stability� of� the� LTC3216.� As� shown� in�
�the� Block� Diagram,� the� LTC3216� uses� a� control� loop� to�
�adjust� the� strength� of� the� charge� pump� to� match� the� cur-�
�rent� required� at� the� output.� The� error� signal� of� this� loop�
�is� stored� directly� on� the� output� charge� storage� capacitor.�
�The� charge� storage� capacitor� also� serves� as� the� dominant�
�pole� for� the� control� loop.� To� prevent� ringing� or� instability,�
�In� order� to� reset� the� part� back� into� 1x� mode,� the� LTC3216�
�must� be� brought� into� shutdown� (EN1� =� EN2� =� LOW).� Im-�
�mediately� after� the� part� has� been� brought� to� shutdown,�
�it� may� be� set� to� the� desired� output� current� level� via� the�
�EN1� and� EN2� pins.� An� internal� comparator� will� not� allow�
�the� main� switches� to� connect� V� IN� and� CPO� in� 1x� mode�
�until� the� voltage� at� the� CPO� pin� has� decayed� to� less� than�
�or� equal� to� the� voltage� at� the� V� IN� pin.�
�Likewise,� excessive� ESR� on� the� output� capacitor� will� tend�
�to� degrade� the� loop� stability� of� the� LTC3216.� The� closed�
�loop� output� resistance� of� the� LTC3216� is� designed� to� be�
�76mΩ.� For� a� 100mA� load� current� change,� the� error� signal�
�will� change� by� about� 7.6mV.� If� the� output� capacitor� has�
�76m� or� more� of� ESR,� the� closed-loop� frequency� response�
�will� cease� to� roll� off� in� a� simple� one� pole� fashion� and� poor�
�load� transient� response� of� instability� could� result.� Multilayer�
�ceramic� chip� capacitors� typically� have� exceptional� ESR�
�performance.� MLCCs� combined� with� a� tight� board� layout�
�will� yield� very� good� stability.� As� the� value� of� C� CPO� controls�
�the� amount� of� output� ripple,� the� value� of� C� VIN� controls� the�
�amount� of� ripple� present� at� the� input� pin� (V� IN� ).� The� input�
�current� to� the� LTC3216� will� be� relatively� constant� while�
�the� charge� pump� is� on� either� the� input� charging� phase� or�
�the� output� charging� phase� but� will� drop� to� zero� during� the�
�clock� nonoverlap� times.� Since� the� nonoverlap� time� is� small�
�(~15ns),� these� missing� “notches”� will� result� in� only� a� small�
�perturbation� on� the� input� power� supply� line.� Note� that� a�
�higher� ESR� capacitor� such� as� tantalum� will� have� higher�
�input� noise� due� to� the� input� current� change� times� the� ESR.�
�Therefore,� ceramic� capacitors� are� again� recommended� for�
�their� exceptional� ESR� performance.� Input� noise� can� be�
�further� reduced� by� powering� the� LTC3216� through� a� very�
�small� series� inductor� as� shown� in� Figure� 2.� A� 10nH� inductor�
�will� reject� the� fast� current� notches,� thereby� presenting� a�
�nearly� constant� current� load� to� the� input� power� supply.�
�For� economy,� the� 10nH� inductor� can� be� fabricated� on� the�
�PC� board� with� about� 1cm� (0.4")� of� PC� board� trace.�
�it� is� important� for� the� output� capacitor� to� maintain� at� least�
�2.2μF� of� actual� capacitance� over� all� conditions.�
�3216fc�
�8�
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