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| 型号: | LT1375IN8 |
| 厂商: | Linear Technology |
| 文件页数: | 11/28页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 1.5A 8DIP |
| 标准包装: | 50 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 2.42 V ~ 21.5 V |
| 输入电压: | 5 V ~ 25 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 500kHz |
| 电流 - 输出: | 1.5A |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 通孔 |
| 封装/外壳: | 8-DIP(0.300",7.62mm) |
| 包装: | 管件 |
| 供应商设备封装: | 8-PDIP |
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�LT1375/LT1376�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�Example:� with� L� =� 2� μ� H,� V� OUT� =� 5V,� and� V� IN(MAX� )� =� 15V,�
�must� withstand� continuous� fault� conditions.� If� maxi-�
�(� =� 1� .� 5� )� ??� 500� ?� 10� ?� ?� ??� 2� ?� 10� ??� (� 15� )� =� 338� mA�
�?� 6�
�3�
�I� OUT� (� MAX�
�)�
�2�
�2� (� 5� )� (� 15� ?� 5� )�
�mum� load� current� is� 0.5A,� for� instance,� a� 0.5A� inductor�
�may� not� survive� a� continuous� 1.5A� overload� condition.�
�Dead� shorts� will� actually� be� more� gentle� on� the� induc-�
�tor� because� the� LT1376� has� foldback� current� limiting.�
�2.� Calculate� peak� inductor� current� at� full� load� current� to�
�V� OUT� (� V� IN� ?� V� OUT� )�
�2� (� f� )(� L� )(� V� )�
�Themainreasonforusingsuchatinyinductoristhatitis�
�physically� very� small,� but� keep� in� mind� that� peak-to-peak�
�inductor� current� will� be� very� high.� This� will� increase� output�
�ripple� voltage.� If� the� output� capacitor� has� to� be� made� larger�
�to� reduce� ripple� voltage,� the� overall� circuit� could� actually�
�wind� up� larger.�
�CHOOSING� THE� INDUCTOR� AND� OUTPUT� CAPACITOR�
�For� most� applications� the� output� inductor� will� fall� in� the�
�range� of� 3� μ� H� to� 20� μ� H.� Lower� values� are� chosen� to� reduce�
�physical� size� of� the� inductor.� Higher� values� allow� more�
�output� current� because� they� reduce� peak� current� seen� by�
�the� LT1376� switch,� which� has� a� 1.5A� limit.� Higher� values�
�also� reduce� output� ripple� voltage,� and� reduce� core� loss.�
�Graphs� in� the� Typical� Performance� Characteristics� section�
�show� maximum� output� load� current� versus� inductor� size�
�and� input� voltage.� A� second� graph� shows� core� loss� versus�
�inductor� size� for� various� core� materials.�
�When� choosing� an� inductor� you� might� have� to� consider�
�maximum� load� current,� core� and� copper� losses,� allowable�
�component� height,� output� voltage� ripple,� EMI,� fault� cur-�
�rent� in� the� inductor,� saturation,� and� of� course,� cost.� The�
�following� procedure� is� suggested� as� a� way� of� handling�
�these� somewhat� complicated� and� conflicting� requirements.�
�1.� Choose� a� value� in� microhenries� from� the� graphs� of�
�maximum� load� current� and� core� loss.� Choosing� a� small�
�inductor� with� lighter� loads� may� result� in� discontinuous�
�mode� of� operation,� but� the� LT1376� is� designed� to� work�
�well� in� either� mode.� Keep� in� mind� that� lower� core� loss�
�means� higher� cost,� at� least� for� closed� core� geometries�
�like� toroids.� The� core� loss� graphs� show� both� absolute�
�loss� and� percent� loss� for� a� 5W� output,� so� actual� percent�
�losses� must� be� calculated� for� each� situation.�
�Assume� that� the� average� inductor� current� is� equal� to�
�load� current� and� decide� whether� or� not� the� inductor�
�ensure� that� the� inductor� will� not� saturate.� Peak� current�
�can� be� significantly� higher� than� output� current,� espe-�
�cially� with� smaller� inductors� and� lighter� loads,� so� don’t�
�omit� this� step.� Powdered� iron� cores� are� forgiving�
�because� they� saturate� softly,� whereas� ferrite� cores�
�saturate� abruptly.� Other� core� materials� fall� in� between�
�somewhere.� The� following� formula� assumes� continu-�
�ous� mode� of� operation,� but� it� errs� only� slightly� on� the�
�high� side� for� discontinuous� mode,� so� it� can� be� used� for�
�all� conditions.�
�I� PEAK� =� I� OUT� +�
�IN�
�V� IN� =� Maximum� input� voltage�
�f� =� Switching� frequency,� 500kHz�
�3.� Decide� if� the� design� can� tolerate� an� “open”� core� geom-�
�etry� like� a� rod� or� barrel,� which� have� high� magnetic� field�
�radiation,� or� whether� it� needs� a� closed� core� like� a� toroid�
�to� prevent� EMI� problems.� One� would� not� want� an� open�
�core� next� to� a� magnetic� storage� media,� for� instance!�
�This� is� a� tough� decision� because� the� rods� or� barrels� are�
�temptingly� cheap� and� small� and� there� are� no� helpful�
�guidelines� to� calculate� when� the� magnetic� field� radia-�
�tion� will� be� a� problem.�
�4.� Start� shopping� for� an� inductor� (see� representative�
�surface� mount� units� in� Table� 2)� which� meets� the� re-�
�quirements� of� core� shape,� peak� current� (to� avoid� satu-�
�ration),� average� current� (to� limit� heating),� and� fault�
�current� (if� the� inductor� gets� too� hot,� wire� insulation� will�
�melt� and� cause� turn-to-turn� shorts).� Keep� in� mind� that�
�all� good� things� like� high� efficiency,� low� profile,� and� high�
�temperature� operation� will� increase� cost,� sometimes�
�dramatically.� Get� a� quote� on� the� cheapest� unit� first� to�
�calibrate� yourself� on� price,� then� ask� for� what� you� really�
�want.�
�13756fd�
�11�
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