参数资料
| 型号: | LTC3819EG#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 14/32页 |
| 文件大小: | 0K |
| 描述: | IC CNTRLR STEP DOWN 36-SSOP |
| 标准包装: | 2,000 |
| 应用: | 控制器,Sun 服务器 |
| 输入电压: | 4 V ~ 36 V |
| 输出数: | 1 |
| 输出电压: | 1.03 V ~ 1.41 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 36-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 36-SSOP |
| 包装: | 带卷 (TR) |
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�
�LTC3819�
�APPLICATIO� S� I� FOR� ATIO�
�?� I� L� =� OUT� ?� 1� ?� OUT� ?�
�V� ?� V� ?�
�f� ?� L� ?� V� IN� ?�
�where� f� is� the� individual� output� stage� operating� frequency.�
�In� a� 2-phase� converter,� the� net� ripple� current� seen� by� the�
�output� capacitor� is� much� smaller� than� the� individual�
�inductor� ripple� currents� due� to� ripple� cancellation.� The�
�details� on� how� to� calculate� the� net� output� ripple� current�
�can� be� found� in� Application� Note� 77.�
�Figure� 3� shows� the� net� ripple� current� seen� by� the� output�
�capacitors� for� 1-� and� 2-phase� configurations.� The� output�
�ripple� current� is� plotted� for� a� fixed� output� voltage� as� the�
�duty� factor� is� varied� between� 10%� and� 90%� on� the� x-axis.�
�The� output� ripple� current� is� normalized� against� the� induc-�
�tor� ripple� current� at� zero� duty� factor.� The� graph� can� be�
�used� in� place� of� tedious� calculations,� simplifying� the�
�design� process.�
�generally� cannot� afford� the� core� loss� found� in� low� cost�
�powdered� iron� cores,� forcing� the� use� of� more� expensive�
�ferrite,� molypermalloy,� or� Kool� M� μ� ?� cores.� Actual� core�
�loss� is� independent� of� core� size� for� a� fixed� inductor� value,�
�but� it� is� very� dependent� on� inductor� type� selected.� As�
�inductance� increases,� core� losses� go� down.� Unfortu-�
�nately,� increased� inductance� requires� more� turns� of� wire�
�and� therefore� copper� losses� will� increase.�
�Ferrite� designs� have� very� low� core� loss� and� are� preferred�
�at� high� switching� frequencies,� so� design� goals� can� con-�
�centrate� on� copper� loss� and� preventing� saturation.� Ferrite�
�core� material� saturates� “hard,”� which� means� that� induc-�
�tance� collapses� abruptly� when� the� peak� design� current� is�
�exceeded.� This� results� in� an� abrupt� increase� in� inductor�
�ripple� current� and� consequent� output� voltage� ripple.� Do�
�not� allow� the� core� to� saturate!�
�Molypermalloy� (from� Magnetics,� Inc.)� is� a� very� good,� low�
�loss� core� material� for� toroids,� but� it� is� more� expensive�
�1.0�
�0.9�
�0.8�
�0.7�
�0.6�
�0.5�
�0.4�
�0.3�
�0.2�
�0.1�
�1-PHASE�
�2-PHASE�
�than� ferrite.� A� reasonable� compromise� from� the� same�
�manufacturer� is� Kool� M� μ� .� Toroids� are� very� space� effi-�
�cient,especiallywhenyoucanuseseverallayersofwire.�
�Because� they� lack� a� bobbin,� mounting� is� more� difficult.�
�However,� designs� for� surface� mount� are� available� which�
�do� not� increase� the� height� significantly.�
�Power� MOSFET,� D1� and� D2� Selection�
�Two� external� power� MOSFETs� must� be� selected� for� each�
�0�
�0.1�
�0.2�
�0.3� 0.4�
�0.5� 0.6� 0.7�
�0.8�
�0.9�
�output� stage� with� the� LTC3819:� one� N-channel� MOSFET�
�DUTY� FACTOR� (V� OUT� /V� IN� )�
�3819� F03�
�Figure� 3.� Normalized� Output� Ripple� Current�
�vs� Duty� Factor� [I� RMS� ≈� 0.3� (� ?� I� O(P–P)� )]�
�Accepting� larger� values� of� ?� I� L� allows� the� use� of� low�
�inductances,� but� can� result� in� higher� output� voltage� ripple.�
�A� reasonable� starting� point� for� setting� ripple� current� is�
�?� I� L� =� 0.4(I� OUT� )/2,� where� I� OUT� is� the� total� load� current.�
�Remember,� the� maximum� ?� I� L� occurs� at� the� maximum�
�input� voltage.� The� individual� inductor� ripple� currents� are�
�determined� by� the� inductor,� input� and� output� voltages.�
�Inductor� Core� Selection�
�Once� the� values� for� L1� and� L2� are� known,� the� type� of�
�inductor� must� be� selected.� High� efficiency� converters�
�for� the� top� (main)� switch,� and� one� N-channel� MOSFET� for�
�the� bottom� (synchronous)� switch.�
�The� peak-to-peak� drive� levels� are� set� by� the� INTV� CC�
�voltage.� This� voltage� is� typically� 5V� during� start-up�
�(see� EXTV� CC� Pin� Connection).� Consequently,� logic-level�
�threshold� MOSFETs� must� be� used� in� most� applications.�
�The� only� exception� is� if� low� input� voltage� is� expected�
�(V� IN� <� 5V);� then,� sublogic-level� threshold� MOSFETs�
�(V� GS(TH)� <� 1V)� should� be� used.� Pay� close� attention� to� the�
�BV� DSS� specification� for� the� MOSFETs� as� well;� most� of� the�
�logic-level� MOSFETs� are� limited� to� 30V� or� less.�
�Selection� criteria� for� the� power� MOSFETs� include� the� “ON”�
�resistance� R� DS(ON)� ,� reverse� transfer� capacitance� C� RSS� ,�
�input� voltage� and� maximum� output� current.� When� the�
�3819f�
�14�
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