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| 型号: | LM2596TVADJG |
| 厂商: | ON Semiconductor |
| 文件页数: | 15/25页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 3A TO220-5 |
| 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: | 1.23 V ~ 37 V |
| 输入电压: | 4.5 V ~ 40 V |
| PWM 型: | 电压模式 |
| 频率 - 开关: | 150kHz |
| 电流 - 输出: | 3A |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 通孔 |
| 封装/外壳: | TO-220-5 成形引线 |
| 包装: | 管件 |
| 供应商设备封装: | TO-220-5 |
| 其它名称: | LM2596TVADJG-ND LM2596TVADJGOS |
��
�
�LM2596�
�Catch� Diode�
�Locate� the� Catch� Diode� Close� to� the� LM2596�
�The� LM2596� is� a� step� ?� down� buck� converter;� it� requires� a�
�fast� diode� to� provide� a� return� path� for� the� inductor� current�
�when� the� switch� turns� off.� This� diode� must� be� located� close�
�to� the� LM2596� using� short� leads� and� short� printed� circuit�
�traces� to� avoid� EMI� problems.�
�Use� a� Schottky� or� a� Soft� Switching�
�Ultra� ?� Fast� Recovery� Diode�
�Since� the� rectifier� diodes� are� very� significant� sources� of�
�losses� within� switching� power� supplies,� choosing� the�
�rectifier� that� best� fits� into� the� converter� design� is� an�
�important� process.� Schottky� diodes� provide� the� best�
�performance� because� of� their� fast� switching� speed� and� low�
�forward� voltage� drop.�
�They� provide� the� best� efficiency� especially� in� low� output�
�voltage� applications� (5.0� V� and� lower).� Another� choice�
�could� be� Fast� ?� Recovery,� or� Ultra� ?� Fast� Recovery� diodes.� It�
�has� to� be� noted,� that� some� types� of� these� diodes� with� an�
�abrupt� turnoff� characteristic� may� cause� instability� or�
�EMI� troubles.�
�A� fast� ?� recovery� diode� with� soft� recovery� characteristics�
�can� better� fulfill� some� quality,� low� noise� design� requirements.�
�Table� 2� provides� a� list� of� suitable� diodes� for� the� LM2596�
�ripple� voltage.� On� the� other� hand� it� does� require� larger�
�inductor� values� to� keep� the� inductor� current� flowing�
�continuously,� especially� at� low� output� load� currents� and/or�
�high� input� voltages.�
�To� simplify� the� inductor� selection� process,� an� inductor�
�selection� guide� for� the� LM2596� regulator� was� added� to� this�
�data� sheet� (Figure� 18).� This� guide� assumes� that� the� regulator�
�is� operating� in� the� continuous� mode,� and� selects� an� inductor�
�that� will� allow� a� peak� ?� to� ?� peak� inductor� ripple� current� to� be�
�a� certain� percentage� of� the� maximum� design� load� current.�
�This� percentage� is� allowed� to� change� as� different� design� load�
�currents� are� selected.� For� light� loads� (less� than�
�approximately� 300� mA)� it� may� be� desirable� to� operate� the�
�regulator� in� the� discontinuous� mode,� because� the� inductor�
�value� and� size� can� be� kept� relatively� low.� Consequently,� the�
�percentage� of� inductor� peak� ?� to� ?� peak� current� increases.� This�
�discontinuous� mode� of� operation� is� perfectly� acceptable� for�
�this� type� of� switching� converter.� Any� buck� regulator� will� be�
�forced� to� enter� discontinuous� mode� if� the� load� current� is� light�
�enough.�
�regulator.� Standard� 50/60� Hz� rectifier� diodes,� such� as� the�
�1N4001� series� or� 1N5400� series� are� NOT� suitable.�
�Inductor�
�Current�
�2.0� A�
�Inductor�
�The� magnetic� components� are� the� cornerstone� of� all�
�switching� power� supply� designs.� The� style� of� the� core� and�
�the� winding� technique� used� in� the� magnetic� component’s�
�design� has� a� great� influence� on� the� reliability� of� the� overall�
�power� supply.�
�Using� an� improper� or� poorly� designed� inductor� can� cause�
�high� voltage� spikes� generated� by� the� rate� of� transitions� in�
�current� within� the� switching� power� supply,� and� the�
�possibility� of� core� saturation� can� arise� during� an� abnormal�
�operational� mode.� Voltage� spikes� can� cause� the�
�semiconductors� to� enter� avalanche� breakdown� and� the� part�
�can� instantly� fail� if� enough� energy� is� applied.� It� can� also�
�cause� significant� RFI� (Radio� Frequency� Interference)� and�
�EMI� (Electro� ?� Magnetic� Interference)� problems.�
�Continuous� and� Discontinuous� Mode� of� Operation�
�The� LM2596� step� ?� down� converter� can� operate� in� both� the�
�continuous� and� the� discontinuous� modes� of� operation.� The�
�regulator� works� in� the� continuous� mode� when� loads� are�
�relatively� heavy,� the� current� flows� through� the� inductor�
�continuously� and� never� falls� to� zero.� Under� light� load�
�conditions,� the� circuit� will� be� forced� to� the� discontinuous�
�mode� when� inductor� current� falls� to� zero� for� certain� period�
�of� time� (see� Figure� 19� and� Figure� 20).� Each� mode� has�
�distinctively� different� operating� characteristics,� which� can�
�affect� the� regulator� performance� and� requirements.� In� many�
�cases� the� preferred� mode� of� operation� is� the� continuous�
�mode.� It� offers� greater� output� power,� lower� peak� currents� in�
�the� switch,� inductor� and� diode,� and� can� have� a� lower� output�
�Waveform� 0� A�
�2.0� A�
�Power�
�Switch�
�Current�
�Waveform� 0� A�
�HORIZONTAL� TIME� BASE:� 2.0� m� s/DIV�
�Figure� 19.� Continuous� Mode� Switching� Current�
�Waveforms�
�Selecting� the� Right� Inductor� Style�
�Some� important� considerations� when� selecting� a� core� type�
�are� core� material,� cost,� the� output� power� of� the� power� supply,�
�the� physical� volume� the� inductor� must� fit� within,� and� the�
�amount� of� EMI� (Electro� ?� Magnetic� Interference)� shielding�
�that� the� core� must� provide.� The� inductor� selection� guide�
�covers� different� styles� of� inductors,� such� as� pot� core,� E� ?� core,�
�toroid� and� bobbin� core,� as� well� as� different� core� materials�
�such� as� ferrites� and� powdered� iron� from� different�
�manufacturers.�
�For� high� quality� design� regulators� the� toroid� core� seems� to�
�be� the� best� choice.� Since� the� magnetic� flux� is� contained�
�within� the� core,� it� generates� less� EMI,� reducing� noise�
�problems� in� sensitive� circuits.� The� least� expensive� is� the�
�bobbin� core� type,� which� consists� of� wire� wound� on� a� ferrite�
�rod� core.� This� type� of� inductor� generates� more� EMI� due� to�
�the� fact� that� its� core� is� open,� and� the� magnetic� flux� is� not�
�contained� within� the� core.�
�When� multiple� switching� regulators� are� located� on� the�
�same� printed� circuit� board,� open� core� magnetics� can� cause�
�http://onsemi.com�
�15�
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