参数资料
| 型号: | LTC4000IGN#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 23/40页 |
| 文件大小: | 0K |
| 描述: | IC CHARGER BATTERY 28-SSOP |
| 产品培训模块: | LTC4000 60V Battery Charging Controller and Power Management |
| 标准包装: | 2,500 |
| 系列: | PowerPath™ |
| 功能: | 充电管理,电源管理 |
| 电池化学: | 多化学 |
| 电源电压: | 3 V ~ 60 V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-SSOP(0.154",3.90mm 宽) |
| 供应商设备封装: | 28-SSOP |
| 包装: | 带卷 (TR) |
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�LTC4000�
�APPLICATIONS� INFORMATION�
�R� VM1� =� ?� VM� _� RST� –� 1� ?� ?� R� VM2�
�–�
�+�
�SettingtheInputVoltageMonitoringResistorDivider�
�The� falling� threshold� voltage� level� for� this� monitoring�
�function� can� be� calculated� as� follows:�
�?� V� ?�
�?� 1.193V� ?�
�LTC4000�
�A4-A7�
�g� m4-7� =� 0.2m�
�+�
�R� O4-7�
�CC�
�A10�
�g� m10� =� 0.1m�
�–� ITH�
�R� O10�
�4000� F11�
�C� C�
�R� C�
�where� R� VM1� and� R� VM2� form� a� resistor� divider� connected�
�between� the� monitored� voltage� and� GND,� with� the� center�
�tap� point� connected� to� the� VM� pin� as� shown� in� Figure� 6.� The�
�rising� threshold� voltage� level� can� be� calculated� similarly.�
�Compensation�
�In� order� for� the� LTC4000� to� control� the� external� DC/DC�
�converter,� it� has� to� be� able� to� overcome� the� sourcing� bias�
�current� of� the� ITH� or� VC� pin� of� the� DC/DC� converter.� The�
�typical� sinking� capability� of� the� LTC4000� at� the� ITH� pin� is�
�1mA� at� 0.4V� with� a� maximum� voltage� range� of� 0V� to� 6V.�
�It� is� imperative� that� the� local� feedback� of� the� DC/DC� con-�
�verter� be� set� up� such� that� during� regulation� of� any� of� the�
�LTC4000� loops� this� local� loop� is� out� of� regulation� and�
�sources� as� much� current� as� possible� from� its� ITH/VC� pin.�
�For� example� for� a� DC/DC� converter� regulating� its� output�
�voltage,� it� is� recommended� that� the� converter� feedback�
�divider� is� programmed� to� be� greater� than� 110%� of� the�
�output� voltage� regulation� level� programmed� at� the� OFB� pin.�
�There� are� four� feedback� loops� to� consider� when� setting� up�
�the� compensation� for� the� LTC4000.� As� mentioned� before�
�these� loops� are:� the� input� current� loop,� the� charge� current�
�loop,� the� float� voltage� loop� and� the� output� voltage� loop.�
�All� of� these� loops� have� an� error� amp� (A4-A7)� followed� by�
�another� amplifier� (A10)� with� the� intermediate� node� driv-�
�ing� the� CC� pin� and� the� output� of� A10� driving� the� ITH� pin�
�as� shown� in� Figure� 11.� The� most� common� compensation�
�network� of� a� series� capacitor� (C� C� )� and� resistor� (R� C� )� between�
�the� CC� pin� and� the� ITH� pin� is� shown� here.�
�Each� of� the� loops� has� slightly� different� dynamics� due� to�
�differences� in� the� feedback� signal� path.� The� analytic� descrip-�
�tion� of� each� of� the� loops� is� included� in� the� Appendix� sec-�
�tion.� In� most� situations,� an� alternative� empirical� approach�
�to� compensation,� as� described� here,� is� more� practical.�
�Figure� 11.� Error� Amplifier� Followed� by� Output� Amplifier� Driving�
�CC� and� ITH� Pins�
�Empirical� Loop� Compensation�
�Based� on� the� five� analytical� expressions� given� in� the� Ap-�
�pendix� section,� and� the� transfer� function� from� the� ITH�
�pin� to� the� input� and� output� current� of� the� external� DC/DC�
�converter,� the� user� can� analytically� determine� the� complete�
�loop� transfer� function� of� each� of� the� loops.� Once� these� are�
�obtained,� it� is� a� matter� of� analyzing� the� gain� and� phase�
�bode� plots� to� ensure� that� there� is� enough� phase� and� gain�
�margin� at� unity� crossover� with� the� selected� values� of� R� C�
�and� C� C� for� all� operating� conditions.�
�Even� though� it� is� clear� that� an� analytical� compensation�
�method� is� possible,� sometimes� certain� complications�
�render� this� method� difficult� to� tackle.� These� complica-�
�tions� include� the� lack� of� easy� availability� of� the� switching�
�converter� transfer� function� from� the� ITH� or� VC� control�
�node� to� its� input� or� output� current,� and� the� variability� of�
�parameter� values� of� the� components� such� as� the� ESR� of�
�the� output� capacitor� or� the� R� DS(ON)� of� the� external� PFETs.�
�Therefore� a� simpler� and� more� practical� way� to� compensate�
�the� LTC4000� is� provided� here.� This� empirical� method�
�involves� injecting� an� AC� signal� into� the� loop,� observing�
�the� loop� transient� response� and� adjusting� the� C� C� and� R� C�
�values� to� quickly� iterate� towards� the� final� values.� Much�
�of� the� detail� of� this� method� is� derived� from� Application�
�Note?� 19� which� can� be� found� at� www.linear.com� using�
�AN19� in� the� search� box.�
�Figure� 12� shows� the� recommended� setup� to� inject� an�
�AC-coupled� output� load� variation� into� the� loop.� A� function�
�generator� with� 50Ω� output� impedance� is� coupled� through�
�a� 50Ω/1000μF� series� RC� network� to� the� regulator� output.�
�4000fb�
�For� more� information� www.linear.com/LTC4000�
�23�
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