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| 型号: | LTC3603IMSE#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 10/22页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC ADJ 2.5A 16MSOP |
| 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: | 0.6 V ~ 14.5 V |
| 输入电压: | 4.5 V ~ 15 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 300kHz ~ 3MHz |
| 电流 - 输出: | 2.5A |
| 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-TFSOP(0.118",3.00mm 宽)裸露焊盘 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 16-MSOP,裸露焊盘 |
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�
�LTC3603�
�APPLICATIONS� INFORMATION�
�V� OUT� ?�
�V� OUT�
�?� ?� ?� 1–� V�
�L� =� ?� ?�
�1.15� ?� 10� 11�
�R� OSC� =� –� 10k�
�Δ� I� L� =� ?� OUT� ?� ?� ?� 1–� OUT� ?�
�The� basic� LTC3603� application� circuit� is� shown� on� the� front�
�page� of� this� data� sheet.� External� component� selection� is�
�determined� by� the� maximum� load� current� and� begins� with�
�the� selection� of� the� inductor� value� and� operating� frequency�
�followed� by� C� IN� and� C� OUT� .�
�Operating� Frequency�
�Selection� of� the� operating� frequency� is� a� trade-off� between�
�efficiency� and� component� size.� High� frequency� operation�
�allows� the� use� of� smaller� inductor� and� capacitor� values.�
�Operation� at� lower� frequencies� improves� efficiency� by�
�reducing� internal� gate� charge� and� switching� losses� but�
�requires� larger� inductance� values� and/or� capacitance� to�
�maintain� low� output� ripple� voltage.� The� operating� frequency�
�of� the� LTC3603� is� determined� by� an� external� resistor� that� is�
�connected� between� the� RT� pin� and� ground.� The� value� of� the�
�resistor� sets� the� ramp� current� that� is� used� to� charge� and�
�discharge� an� internal� timing� capacitor� within� the� oscillator�
�and� can� be� calculated� by� using� the� following� equation:�
�f(Hz)�
�Although� frequencies� as� high� as� 3MHz� are� possible,� the�
�minimum� on-time� of� the� LTC3603� imposes� a� minimum�
�limit� on� the� operating� duty� cycle.� The� minimum� on-time�
�is� typically� 95ns.� Therefore,� the� minimum� duty� cycle� is�
�equal� to� 100� ?� 95ns� ?� f(Hz).�
�Inductor� Selection�
�For� a� given� input� and� output� voltage,� the� inductor� value�
�and� operating� frequency� determine� the� ripple� current.� The�
�ripple� current� D� I� L� increases� with� higher� V� IN� and� decreases�
�with� higher� inductance.�
�?� V� ?� ?� V� ?�
�?� fL� ?� ?� V� IN� ?�
�Having� a� lower� ripple� current� reduces� the� ESR� losses�
�in� the� output� capacitors� and� the� output� voltage� ripple.�
�Highest� efficiency� operation� is� achieved� at� low� frequency�
�with� small� ripple� current.� This,� however,� requires� a� large�
�inductor.�
�A� reasonable� starting� point� for� selecting� the� ripple� current�
�is� D� I� L� =� 0.4(I� MAX� ),� where� I� MAX� is� the� maximum� output�
�current.� The� largest� ripple� current� occurs� at� the� highest�
�V� IN� .� To� guarantee� that� the� ripple� current� stays� below� a�
�specified� maximum,� the� inductor� value� should� be� chosen�
�according� to� the� following� equation:�
�?� ?� ?�
�?� f� Δ� I� L(MAX)� ?� ?� IN(MAX)� ?�
�The� inductor� value� will� also� have� an� effect� on� Burst� Mode�
�operation.� The� transition� from� low� current� operation�
�begins� when� the� peak� inductor� current� falls� below� a� level�
�set� by� the� burst� clamp.� Lower� inductor� values� result� in�
�higher� ripple� current� which� causes� this� to� occur� at� lower�
�load� currents.� This� causes� 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� increase.�
�Inductor� Core� Selection�
�Once� the� value� for� L� is� known,� the� type� of� inductor� must�
�be� selected.� High� efficiency� converters� generally� cannot�
�afford� the� core� loss� found� in� low� cost� powdered� iron� cores,�
�forcing� the� use� of� the� more� expensive� ferrite� cores.� Actual�
�core� loss� is� independent� of� core� size� for� a� fixed� inductor�
�value� but� it� is� very� dependent� on� the� inductance� selected.�
�As� the� inductance� increases,� core� losses� decrease.� Un-�
�fortunately,� increased� inductance� requires� more� turns� of�
�wire� and� therefore� copper� losses� will� increase.�
�Ferrite� designs� have� very� low� core� losses� and� are� pre-�
�ferred� at� high� switching� frequencies,� so� design� goals� can�
�concentrate� on� copper� loss� and� preventing� saturation.�
�Ferrite� core� material� saturates� hard� ,� which� means� that�
�inductance� collapses� 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!�
�Different� core� materials� and� shapes� will� change� the�
�size/current� and� price/current� relationship� of� an� inductor.�
�Toroid� or� shielded� pot� cores� in� ferrite� or� permalloy� ma-�
�terials� are� small� and� do� not� radiate� energy� but� generally�
�cost� more� than� powdered� iron� core� inductors� with� similar�
�10�
�For� more� information� www.linear.com/LTC3603�
�3603fc�
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