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| 型号: | LTC1701ES5#TR |
| 厂商: | Linear Technology |
| 文件页数: | 6/12页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 0.5A TSOT23-5 |
| 标准包装: | 2,500 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 1.25 V ~ 5 V |
| 输入电压: | 2.5 V ~ 5.5 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 1MHz |
| 电流 - 输出: | 500mA |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | SOT-23-5 细型,TSOT-23-5 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | TSOT-23-5 |
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�
�LTC1701/LTC1701B�
�APPLICATIO� S� I� FOR� ATIO�
�I� DIODE� (� avg� )� =� I� LOAD� (� avg� )� ?� IN� OUT� ?�
�?� ?� ?�
�V� D� ≈� ?� ?�
�Accepting larger values of ?I� L� allows the use of low�
�inductances,� but� results� in� higher� output� voltage� ripple�
�and� greater� core� losses.� A� reasonable� starting� point� for�
�setting� ripple� current� is� ?� I� L� =� 0.4A.�
�The� inductor� value� also� has� an� effect� on� low� current�
�operation.� Lower� inductor� values� (higher� ?� I� L� )� will� cause�
�Burst� Mode� operation� to� begin� at� higher� load� currents,�
�which� can� cause� a� dip� in� efficiency� in� the� upper� range� of�
�low� current� operation.� In� Burst� Mode� operation,� lower�
�inductance� values� will� cause� the� burst� frequency� to� de-�
�crease.�
�Inductor� Core� Selection�
�Once� the� value� for� L� is� selected,� the� type� of� inductor� must�
�be� chosen.� Basically,� there� are� two� kinds� of� losses� in� an�
�inductor� —core� and� copper� losses.�
�Core� losses� are� dependent� on� the� peak-to-peak� ripple�
�current� and� core� material.� However,� it� is� independent� of�
�the� physical� size� of� the� core.� By� increasing� inductance,� the�
�peak-to-peak� inductor� ripple� current� will� decrease,� there-�
�fore� reducing� core� loss.� Unfortunately,� increased� induc-�
�tance� requires� more� turns� of� wire� and,� therefore,� copper�
�losses� will� increase.�
�High� efficiency� converters� 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.� Ferrite� designs� have� very� low� core� loss� and� are�
�preferred� at� high� switching� frequencies.� Ferrite� core� ma-�
�terial� saturates� “hard,”� which� means� that� inductance� col-�
�lapses� 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� than�
�ferrite.� A� reasonable� compromise� from� the� same� manu-�
�facturer� is� Kool� M� μ� core� material.� Toroids� are� very� space�
�efficient,� expecially� when� you� can� use� several� layers� of�
�wire.� Because� they� generally� lack� a� bobbin,� mounting� is�
�more� difficult.� However,� surface� mount� designs� that� do�
�not� increase� the� height� significantly� are� available�
�6�
�Catch� Diode� Selection�
�The� diode� D1� shown� in� Figure� 1� conducts� during� the� off-�
�time.� It� is� important� to� adequately� specify� the� diode� peak�
�current� and� average� power� dissipation� so� as� not� to� exceed�
�the� diode� ratings.�
�Losses� in� the� catch� diode� depend� on� forward� drop� and�
�switching� times.� Therefore,� Schottky� diodes� are� a� good�
�choice� for� low� drop� and� fast� switching� times.�
�Since� the� catch� diode� carries� the� load� current� during� the�
�off-time,� the� average� diode� current� is� dependent� on� the�
�switch� duty� cycle.� At� high� input� voltages,� the� diode� con-�
�ducts� most� of� the� time.� As� V� IN� approaches� V� OUT� ,� the� diode�
�conducts� only� a� small� fraction� of� the� time.� The� most�
�stressful� condition� for� the� diode� is� when� the� regulator�
�output� is� shorted� to� ground.�
�Under� short-circuit� conditions� (V� OUT� =� 0V),� the� diode�
�must� safely� handle� I� SC(PK)� at� close� to� 100%� duty� cycle.�
�Under� normal� load� conditions,� the� average� current� con-�
�ducted� by� the� diode� is� simply:�
�?� V� ?� V� ?�
�?� V� IN� +� V� D� ?�
�Remember� to� keep� lead� lengths� short� and� observe� proper�
�grounding� (see� Board� Layout� Considerations)� to� avoid�
�ringing� and� increased� dissipation.�
�The� forward� voltage� drop� allowed� in� the� diode� is� calculated�
�from� the� maximum� short-circuit� current� as:�
�?� P� D� ?� ?� V� IN� +� V� D� ?�
�?� I� SC� (� avg� )� ?� V� IN� ?�
�where� P� D� is� the� allowable� diode� power� dissipation� and� will�
�be� determined� by� efficiency� and/or� thermal� requirements�
�(see� Efficiency� Considerations).�
�Most� LTC1701� circuits� will� be� well� served� by� either� an�
�MBR0520L� or� an� MBRM120L.� An� MBR0520L� is� a� good�
�choice� for� I� OUT(MAX)� ≤� 500mA,� as� long� as� the� output�
�doesn’t� need� to� sustain� a� continuous� short.�
�Kool� M� μ� is� a� registered� trademark� of� Magnetics,� Inc.�
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