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参数资料
| 型号: | LM3495MTCX/NOPB |
| 厂商: | National Semiconductor |
| 文件页数: | 15/36页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC ADJ 10A 16TSSOP |
| 标准包装: | 1 |
| 系列: | PowerWise® |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 0.6 V ~ 5.5 V |
| 输入电压: | 2.9 V ~ 18 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 200kHz ~ 1.5MHz |
| 电流 - 输出: | 10A |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm 宽) |
| 包装: | 标准包装 |
| 供应商设备封装: | 16-TSSOP |
| 产品目录页面: | 1300 (CN2011-ZH PDF) |
| 配用: | LM3495EVAL-ND - BOARD EVALUATION LM3495 |
| 其它名称: | LM3495MTCXDKR |
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���SNVS410F� –� FEBRUARY� 2006� –� REVISED� APRIL� 2013�
�FPWM� MODE� OPERATION�
�The� LM3495� operates� under� forced� PWM� when� the� FPWM� pin� is� connected� to� ground.� While� in� FPWM�
�operation,� the� LM3495� controls� the� output� voltage� by� adjusting� the� duty� cycle� of� the� power� FETs� with� trailing�
�edge� PWM.� The� output� inductor� and� capacitor� filter� the� square� wave� produced� as� the� power� FETs� chop� the� input�
�voltage,� thereby� creating� a� regulated� output� voltage.� The� DC� level� of� the� output� voltage� can� be� set� anywhere�
�from� 0.6V� up� to� 5.5V,� and� is� determined� by� a� pair� of� feedback� resistors� using� the� following� equation:�
�V� O� =� 0.6V� x�
�R� FB1� +� R� FB2�
�R� FB1�
�(3)�
�In� steady� state� FPWM� mode,� the� inductor� current� can� flow� from� the� drain� to� the� source� of� the� low-side� FET,�
�keeping� the� converter� in� continuous� conduction� mode� (CCM)� at� all� times.� CCM� has� the� advantage� of� constant�
�frequency� and� nearly� constant� duty� cycle� (D� =� V� O� /V� IN� )� over� all� load� conditions,� and� it� allows� the� converter� to� sink�
�current� at� the� output� if� needed.�
�The� switching� frequency� of� the� internal� oscillator� is� set� by� a� resistor,� R� FRQ� ,� connected� from� the� FREQ/SYNC� pin�
�to� ground.� The� proper� resistor� for� a� desired� switching� frequency,� f� SW� ,� can� be� determined� by� using� the� following�
�equation:�
�R� FRQ� =�
�25.26 x 10� 3�
�f� SW� -� 48.4�
�k� :� ,� f� SW� in� kHz�
�(4)�
�SKIP� MODE� OPERATION�
�If� the� FPWM� pin� is� left� open-circuited,� the� LM3495� can� enter� into� SKIP� mode� operation,� delivering� better�
�efficiency� at� light� loads.� As� long� as� the� inductor� current� is� positive� (flowing� from� the� switch� node� to� the� output�
�node),� SKIP� mode� is� identical� to� FPWM� mode.� Once� the� inductor� current� becomes� negative,� however,� an�
�internal� zero-cross� comparator� will� disable� the� low-side� FET.� This� 'diode-emulation'� mode� allows� the� converter� to�
�operate� in� discontinuous� conduction� mode� (DCM).� In� DCM,� the� duty� cycle� decreases� as� the� load� current�
�decreases.� A� minimum� on-time� comparator� prevents� the� duty� cycle� during� DCM� from� decreasing� below� 80%� of�
�the� steady� state� duty� cycle,� D.� The� converter� will� allow� one� on-time� pulse,� causing� the� output� voltage� to� rise� and�
�the� COMP/SD� voltage� to� droop.� If� COMP/SD� drops� below� the� skip� cycle� comparator� threshold� of� 1.05V,� the�
�control� logic� will� disable� the� high-side� FET� for� one� cycle,� effectively� skipping� a� pulse.� This� skipping� action�
�continues� until� the� COMP/SD� voltage� rises� above� the� skip� cycle� threshold.� Multiple� pulses� can� be� skipped�
�depending� on� load,� input� voltage,� and� output� voltage.� Switching� frequency� is� not� fixed� during� SKIP� Mode,� but�
�energy� is� saved� because� the� high� and� low-side� FETs� are� driven� less� frequently� than� in� FPWM� mode.� In� SKIP�
�mode� the� regulator� cannot� sink� current� at� the� output.�
�SKIP� TO� FPWM� TRANSITION�
�The� LM3495� employs� circuitry� to� transition� from� SKIP� mode� to� FPWM� mode� with� minimal� discontinuity� in�
�inductor� current� and� output� voltage.� When� the� FPWM� pin� is� grounded,� the� threshold� of� the� zero-cross�
�comparator� decreases� from� 0V� to� -9.9� mV� over� fifteen� switching� cycles.� After� fifteen� cycles� have� elapsed,� the�
�zero-cross� comparator� is� disabled� entirely� and� the� circuit� switches� to� FPWM� mode.�
�Note� that� "on-the-fly"� changes� from� FPWM� mode� to� SKIP� mode� are� not� recommended� due� to� the� possibility� of�
�discontinuity� in� the� inductor� current� and/or� output� voltage.�
�FREQUENCY� SYNCHRONIZATION�
�The� switching� action� of� the� LM3495� can� be� synchronized� to� external� clocks� or� other� fixed� frequency� signals� in�
�the� range� of� 200� kHz� to� 1.5� MHz.� The� external� clock� should� be� applied� through� a� 100� pF� coupling� capacitor,�
�C� SYNC� ,� as� shown� in� Figure� 33� .� In� order� for� the� LM3495� to� synchronize� properly,� the� external� clock� should� exceed�
�1.2V� on� each� rising� edge� and� remain� above� 1.2V� for� at� least� 100� ns.�
�The� external� clock� should� also� fall� below� 0.3V� on� each� falling� edge,� and� remain� below� 0.3V� for� at� least� 100� ns.�
�Circuits� that� use� an� external� clock� should� still� have� a� resistor,� R� FRQ� ,� connected� from� the� FREQ/SYNC� pin� to�
�signal� ground.� R� FRQ� should� be� selected� using� the� equation� from� FPWM� MODE� OPERATION� to� match� the�
�external� clock� frequency.� This� allows� the� regulator� to� continue� operating� at� approximately� the� same� switching�
�frequency� if� the� external� clock� fails� and� the� coupling� capacitor� on� the� clock� side� is� grounded� or� pulled� to� a� logic�
�high.�
�Copyright� ?� 2006–2013,� Texas� Instruments� Incorporated�
�Product� Folder� Links:� LM3495�
��15�
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