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| 型号: | LTC3814IFE-5#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 20/30页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST PWM CM 16-TSSOP |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 1MHz |
| 占空比: | 90% |
| 电源电压: | 4.5 V ~ 55 V |
| 降压: | 无 |
| 升压: | 是 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm)裸露焊盘 |
| 包装: | 带卷 (TR) |
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�LTC3814-5�
�APPLICATIONS� INFORMATION�
�The� two� types� of� compensation� networks,� Type� 2� and� Type�
�3� are� shown� in� Figures� 11� and� 12.� When� component� values�
�are� chosen� properly,� these� networks� provide� a� “phase�
�bump”� at� the� crossover� frequency.� Type� 2� uses� a� single�
�pole-zero� pair� to� provide� up� to� about� 60°� of� phase� boost�
�while� Type� 3� uses� two� poles� and� two� zeros� to� provide� up�
�to� 150°� of� phase� boost.�
�The� compensation� of� boost� converters� are� complicated�
�by� two� factors:� the� RHP� zero� and� the� dependence� of� the�
�loop� gain� on� the� duty� cycle.� The� RHP� zero� adds� additional�
�phase� lag� and� gain.� The� phase� lag� degrades� phase� margin�
�and� the� added� gain� keeps� the� gain� high� typically� in� the�
�frequency� region� where� the� user� is� trying� the� roll� off� the�
�gain� below� 0dB.� This� often� forces� the� user� to� choose� a�
�crossover� frequency� at� a� lower� frequency� than� originally�
�desired.� The� duty� cycle� effect� of� gain� (see� above� transfer�
�function)� causes� the� phase� margin� and� crossover� frequency�
�to� be� dependent� on� the� input� supply� voltage� which� may�
�cause� problems� if� the� input� voltage� varies� over� a� wide� range�
�since� the� compensation� network� can� only� be� optimized�
�for� a� speci?c� crossover� frequency.� These� two� factors�
�usually� can� be� overcome� if� the� crossover� frequency� is�
�chosen� low� enough.�
�Feedback� Component� Selection�
�Selecting� the� R� and� C� values� for� a� typical� Type� 2� or�
�Type� 3� loop� is� a� nontrivial� task.� The� applications� shown�
�in� this� data� sheet� show� typical� values,� optimized� for� the�
�power� components� shown.� They� should� give� acceptable�
�performance� with� similar� power� components,� but� can� be�
�way� off� if� even� one� major� power� component� is� changed�
�signi?cantly.� Applications� that� require� optimized� transient�
�response� will� require� recalculation� of� the� compensation�
�values� speci?cally� for� the� circuit� in� question.� The� underly-�
�ing� mathematics� are� complex,� but� the� component� values�
�can� be� calculated� in� a� straightforward� manner� if� we� know�
�the� gain� and� phase� of� the� modulator� at� the� crossover�
�frequency.�
�Modulator� gain� and� phase� can� be� obtained� in� one� of�
�three� ways:� measured� directly� from� a� breadboard,� or� if�
�the� appropriate� parasitic� values� are� known,� simulated� or�
�generated� from� the� modulator� transfer� function.� Mea-�
�surement� will� give� more� accurate� results,� but� simulation�
�or� transfer� function� can� often� get� close� enough� to� give�
�a� working� system.� To� measure� the� modulator� gain� and�
�phase� directly,� wire� up� a� breadboard� with� an� LTC3814-5�
�and� the� actual� MOSFETs,� inductor� and� input� and� output�
�capacitors� that� the� ?nal� design� will� use.� This� breadboard�
�should� use� appropriate� construction� techniques� for� high�
�speed� analog� circuitry:� bypass� capacitors� located� close�
�to� the� LTC3814-5,� no� long� wires� connecting� components,�
�appropriately� sized� ground� returns,� etc.� Wire� the� feedback�
�ampli?er� with� a� 0.1μF� feedback� capacitor� from� I� TH� to� FB�
�and� a� 10k� to� 100k� resistor� from� V� OUT� to� FB.� Choose� the�
�bias� resistor� (R� B� )� as� required� to� set� the� desired� output�
�voltage.� Disconnect� R� B� from� ground� and� connect� it� to�
�a� signal� generator� or� to� the� source� output� of� a� network�
�analyzer� to� inject� a� test� signal� into� the� loop.� Measure� the�
�gain� and� phase� from� the� I� TH� pin� to� the� output� node� at� the�
�positive� terminal� of� the� output� capacitor.� Make� sure� the�
�analyzer’s� input� is� AC� coupled� so� that� the� DC� voltages�
�present� at� both� the� I� TH� and� V� OUT� nodes� don’t� corrupt� the�
�measurements� or� damage� the� analyzer.�
�C2�
�IN�
�C2�
�IN�
�R2�
�C1�
�–6dB/OCT�
�C3�
�R2�
�C1�
�R1�
�FB�
�R� B�
�–�
�OUT�
�0�
�GAIN�
�–6dB/OCT�
�FREQ�
�R1�
�R� B�
�R3�
�FB�
�–�
�OUT�
�0�
�–6dB/OCT�
�GAIN�
�+6dB/OCT�
�–6dB/OCT�
�FREQ�
�V� REF�
�+�
�PHASE�
�–90�
�–180�
�V� REF�
�+�
�PHASE�
�–90�
�–180�
�Figure� 11.� Type� 2� Schematic� and� Transfer� Function�
�–270�
�–360�
�38145� F11�
�Figure� 12.� Type� 3� Schematic� and� Transfer� Function�
�–270�
�–360�
�38145� F12�
�38145fc�
�20�
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