参数资料
| 型号: | LTC4088EDE#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 20/24页 |
| 文件大小: | 0K |
| 描述: | IC BATT CHARGER/USB 14-DFN |
| 标准包装: | 2,500 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子(Li-Ion)、锂聚合物(Li-Pol) |
| 电源电压: | 4.35 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 14-WFDFN 裸露焊盘 |
| 供应商设备封装: | 14-DFN-EP(4x3) |
| 包装: | 带卷 (TR) |
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�LTC4088�
�APPLICATIONS� INFORMATION�
�Voltage� overshoot� on� V� BUS� may� sometimes� be� observed�
�when� connecting� the� LTC4088� to� a� lab� power� supply.� This�
�overshoot� is� caused� by� long� leads� from� the� power� supply�
�to� V� BUS� .� Twisting� the� wires� together� from� the� supply� to�
�V� BUS� can� greatly� reduce� the� parasitic� inductance� of� these�
�long� leads,� and� keep� the� voltage� at� V� BUS� to� safe� levels.� USB�
�cables� are� generally� manufactured� with� the� power� leads� in�
�close� proximity,� and� thus� fairly� low� parasitic� inductance.�
�Board� Layout� Considerations�
�The� Exposed� Pad� on� the� backside� of� the� LTC4088� pack-�
�age� must� be� securely� soldered� to� the� PC� board� ground.�
�This� is� the� only� ground� pin� in� the� package,� and� it� serves�
�as� the� return� path� for� both� the� control� circuitry� and� the�
�synchronous� rectifier.�
�Furthermore,� due� to� its� high� frequency� switching� circuitry,�
�it� is� imperative� that� the� input� capacitor,� inductor,� and�
�output� capacitor� be� as� close� to� the� LTC4088� as� possible�
�and� that� there� be� an� unbroken� ground� plane� under� the�
�LTC4088� and� all� of� its� external� high� frequency� components.�
�High� frequency� currents,� such� as� the� input� current� on� the�
�LTC4088,� tend� to� find� their� way� on� the� ground� plane� along�
�a� mirror� path� directly� beneath� the� incident� path� on� the� top�
�of� the� board.� If� there� are� slits� or� cuts� in� the� ground� plane�
�due� to� other� traces� on� that� layer,� the� current� will� be� forced�
�to� go� around� the� slits.� If� high� frequency� currents� are� not�
�allowed� to� flow� back� through� their� natural� least-area� path,�
�excessive� voltage� will� build� up� and� radiated� emissions� will�
�occur� (see� Figure� 6).� There� should� be� a� group� of� vias� directly�
�under� the� grounded� backside� leading� directly� down� to� an�
�internal� ground� plane.� To� minimize� parasitic� inductance,�
�the� ground� plane� should� be� as� close� as� possible� to� the�
�top� plane� of� the� PC� board� (layer� 2).�
�The� GATE� pin� for� the� external� ideal� diode� controller� has�
�extremely� limited� drive� current.� Care� must� be� taken� to�
�minimize� leakage� to� adjacent� PC� board� traces.� 100nA� of�
�leakage� from� this� pin� will� introduce� an� additional� offset�
�to� the� ideal� diode� of� approximately� 10mV.� To� minimize�
�leakage,� the� trace� can� be� guarded� on� the� PC� board� by�
�surrounding� it� with� V� OUT� connected� metal,� which� should�
�generally� be� less� than� one� volt� higher� than� GATE.�
�4088� F06�
�Figure� 6.� Ground� Currents� Follow� Their� Incident� Path�
�at� High� Speed.� Slices� in� the� Ground� Plane� Cause� High�
�Voltage� and� Increased� Emissions�
�Battery� Charger� Stability� Considerations�
�The� LTC4088’s� battery� charger� contains� both� a� constant-�
�voltage� and� a� constant-current� control� loop.� The� constant-�
�voltage� loop� is� stable� without� any� compensation� when� a�
�battery� is� connected� with� low� impedance� leads.� Excessive�
�lead� length,� however,� may� add� enough� series� inductance� to�
�require� a� bypass� capacitor� of� at� least� 1μF� from� BAT� to� GND.�
�High� value,� low� ESR� multilayer� ceramic� chip� capacitors�
�reduce� the� constant-voltage� loop� phase� margin,� possibly�
�resulting� in� instability.� Ceramic� capacitors� up� to� 22μF�
�may� be� used� in� parallel� with� a� battery,� but� larger� ceramics�
�should� be� decoupled� with� 0.2Ω� to� 1Ω� of� series� resistance.�
�Furthermore,� a� 4.7μF� capacitor� in� series� with� a� 0.2Ω� to� 1Ω�
�resistor� from� BAT� to� GND� is� required� to� prevent� oscillation�
�when� the� battery� is� disconnected.�
�In� constant-current� mode,� the� PROG� pin� is� in� the� feed-�
�back� loop� rather� than� the� battery� voltage.� Because� of� the�
�additional� pole� created� by� any� PROG� pin� capacitance,�
�capacitance� on� this� pin� must� be� kept� to� a� minimum.� With�
�no� additional� capacitance� on� the� PROG� pin,� the� charger�
�is� stable� with� program� resistor� values� as� high� as� 25k.�
�However,� additional� capacitance� on� this� node� reduces� the�
�maximum� allowed� program� resistor.� The� pole� frequency� at�
�the� PROG� pin� should� be� kept� above� 100kHz.� Therefore,� if�
�the� PROG� pin� has� a� parasitic� capacitance,� C� PROG� ,� the� fol-�
�lowing� equation� should� be� used� to� calculate� the� maximum�
�resistance� value� for� R� PROG� :�
�R� PROG� ≤�
�1�
�2� π� ?� 100kHz� ?� C� PROG�
�4088fb�
�20�
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相关代理商/技术参数 |
参数描述 |
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| LTC4089 | 制造商:LINER 制造商全称:Linear Technology 功能描述:USB Power Manager with High Voltage Switching Charger |
| LTC4089-1 | 制造商:LINER 制造商全称:Linear Technology 功能描述:USB Power Manager with High Voltage Switching Charger |
| LTC4089-3 | 制造商:LINER 制造商全称:Linear Technology 功能描述:USB Power Manager with High Voltage Switching Charger |
| LTC4089-5 | 制造商:LINER 制造商全称:Linear Technology 功能描述:High Efficiency Battery Charger/USB Power Manager |
| LTC4089EDJC | 制造商:LINER 制造商全称:Linear Technology 功能描述:USB Power Manager with High Voltage Switching Charger |
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