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| 型号: | LTC1649CS#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 9/16页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM VM 16-SOIC |
| 标准包装: | 50 |
| PWM 型: | 电压模式 |
| 输出数: | 1 |
| 频率 - 最大: | 260kHz |
| 占空比: | 93% |
| 电源电压: | 2.7 V ~ 5 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | 0°C ~ 70°C |
| 封装/外壳: | 16-SOIC(0.154",3.90mm 宽) |
| 包装: | 管件 |
��
�
�LTC1649�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�ages� and� expected� loads� may� require� different� values.�
�Once� the� required� value� is� known,� the� inductor� core� type�
�can� be� chosen� based� on� peak� current� and� efficiency�
�requirements.� Peak� current� in� the� inductor� will� be� equal� to�
�the� maximum� output� load� current� added� to� half� the� peak-�
�to-� peak� inductor� ripple� current.� Ripple� current� is� set� by� the�
�inductor� value,� the� input� and� output� voltage� and� the�
�operating� frequency.� If� the� efficiency� is� high� and� can� be�
�considered� approximately� equal� to� 1,� the� ripple� current� is�
�approximately� equal� to:�
�feed� such� a� load� directly.� The� resulting� RMS� current� flow�
�in� the� input� capacitor� will� heat� it� up,� causing� premature�
�capacitor� failure� in� extreme� cases.� Maximum� RMS� current�
�occurs� with� 50%� PWM� duty� cycle,� giving� an� RMS� current�
�value� equal� to� I� OUT� /2.� A� low� ESR� input� capacitor� with� an�
�adequate� ripple� current� rating� must� be� used� to� ensure�
�reliable� operation.� Note� that� capacitor� manufacturers’�
�ripple� current� ratings� are� often� based� on� only� 2000� hours�
�(3� months)� lifetime;� further� derating� of� the� input� capacitor�
�ripple� current� beyond� the� manufacturer’s� specification� is�
�recommended� to� extend� the� useful� life� of� the� circuit.�
�?� I� =�
�DC� =�
�(V� IN� – V� OUT� )�
�(f� OSC� )(L)�
�V� OUT�
�V� IN�
�DC�
�The� output� capacitor� in� a� buck� converter� sees� much� less�
�ripple� current� under� steady-state� conditions� than� the� input�
�capacitor.� Peak-to-peak� current� is� equal� to� that� in� the�
�inductor,� usually� a� fraction� of� the� total� load� current.� Output�
�(200kHz)(2� μ� H)�
�10A� +�
�=� 10.8A�
�f� OSC� = LTC1649 oscillator frequency = 200kHz�
�L� =� inductor� value�
�Solving� this� equation� with� our� typical� 3.3V� to� 2.5V� appli-�
�cation,� we� get:�
�(0.8)(0.76)�
�=� 1.5A� P–P�
�Peak� inductor� current� at� 10A� load:�
�1.5A�
�2�
�The� inductor� core� must� be� adequate� to� withstand� this� peak�
�current� without� saturating,� and� the� copper� resistance� in�
�the� winding� should� be� kept� as� low� as� possible� to� minimize�
�resistive� power� loss.� Note� that� the� current� may� rise� above�
�this� maximum� level� in� circuits� under� current� limit� or� under�
�fault� conditions� in� unlimited� circuits;� the� inductor� should�
�be� sized� to� withstand� this� additional� current.�
�Input� and� Output� Capacitors�
�A� typical� LTC1649� design� puts� significant� demands� on�
�both� the� input� and� output� capacitors.� Under� normal� steady�
�load� operation,� a� buck� converter� like� the� LTC1649� draws�
�square� waves� of� current� from� the� input� supply� at� the�
�switching� frequency,� with� the� peak� value� equal� to� the�
�output� current� and� the� minimum� value� near� zero.� Most� of�
�this� current� must� come� from� the� input� bypass� capacitor,�
�since� few� raw� supplies� can� provide� the� current� slew� rate� to�
�capacitor� duty� places� a� premium� not� on� power� dissipation�
�but� on� low� ESR.� During� an� output� load� transient,� the�
�output� capacitor� must� supply� all� of� the� additional� load�
�current� demanded� by� the� load� until� the� LTC1649� can�
�adjust� the� inductor� current� to� the� new� value.� ESR� in� the�
�output� capacitor� results� in� a� step� in� the� output� voltage�
�equal� to� the� ESR� value� multiplied� by� the� change� in� load�
�current.� A� 5A� load� step� with� a� 0.05� ?� ESR� output� capacitor�
�will� result� in� a� 250mV� output� voltage� shift;� this� is� a� 10%�
�output� voltage� shift� for� a� 2.5V� supply!� Because� of� the�
�strong� relationship� between� output� capacitor� ESR� and�
�output� load� transient� response,� the� output� capacitor� is�
�usually� chosen� for� ESR,� not� for� capacitance� value;� a�
�capacitor� with� suitable� ESR� will� usually� have� a� larger�
�capacitance� value� than� is� needed� to� control� steady-state�
�output� ripple.�
�Electrolytic� capacitors� rated� for� use� in� switching� power�
�supplies� with� specified� ripple� current� ratings� and� ESR� can�
�be� used� effectively� in� LTC1649� applications.� OS-CON�
�electrolytic� capacitors� from� Sanyo� give� excellent� perfor-�
�mance� and� have� a� very� high� performance/size� ratio� for� an�
�electrolytic� capacitor.� Surface� mount� applications� can� use�
�either� electrolytic� or� dry� tantalum� capacitors.� Tantalum�
�capacitors� must� be� surge� tested� and� specified� for� use� in�
�switching� power� supplies;� low� cost,� generic� tantalums� are�
�known� to� have� very� short� lives� followed� by� explosive�
�deaths� in� switching� power� supply� applications.� AVX� TPS�
�series� surface� mount� devices� are� popular� tantalum� capaci-�
�9�
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