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参数资料
| 型号: | LTC3838EUHF#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 28/54页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 38-QFN |
| 标准包装: | 2,500 |
| 系列: | PolyPhase® |
| PWM 型: | 电流模式 |
| 输出数: | 2 |
| 频率 - 最大: | 2MHz |
| 电源电压: | 4.5 V ~ 38 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: | -40°C ~ 125°C |
| 封装/外壳: | 38-WFQFN 裸露焊盘 |
| 包装: | 带卷 (TR) |
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�LTC3838�
�APPLICATIONS� INFORMATION�
�and� BOOST� capacitor� under� all� operating� conditions.� Vari-�
�able� frequency� in� response� to� load� steps� offers� superior�
�transient� performance� but� requires� higher� instantaneous�
�gate� drive.� Gate� charge� demands� are� greatest� in� high�
�frequency� low� duty� factor� applications� under� high� load�
�steps� and� at� start-up.�
�DRV� CC� Regulator� and� EXTV� CC� Power�
�The� LTC3838� features� a� PMOS� low� dropout� (LDO)� linear�
�regulator� that� supplies� power� to� DRV� CC� from� the� V� IN� supply.�
�The� LDO� regulates� its� output� at� the� DRV� CC1� pin� to� 5.3V.�
�The� LDO� can� supply� a� maximum� current� of� 100mA� and�
�must� be� bypassed� to� ground� with� a� minimum� of� 4.7μF�
�ceramic� capacitor.� Good� bypassing� is� needed� to� supply�
�the� high� transient� currents� required� by� the� MOSFET� gate�
�drivers� and� to� minimize� interaction� between� the� channels.�
�High� input� voltage� applications� in� which� large� MOSFETs�
�are� being� driven� at� high� frequencies� may� cause� the� maxi-�
�mum� junction� temperature� rating� for� the� LTC3838� to� be�
�exceeded,� especially� if� the� LDO� is� active� and� provides�
�DRV� CC� .� Power� dissipation� for� the� IC� in� this� case� is� high-�
�est� and� is� approximately� equal� to� V� IN� ?� I� DRVCC� .� The� gate�
�charge� current� is� dependent� on� operating� frequency� as�
�discussed� in� the� Efficiency� Considerations� section.� The�
�junction� temperature� can� be� estimated� by� using� the� equa-�
�tion� given� in� Note� 2� of� the� Electrical� Characteristics.� For�
�example,� when� using� the� LDO,� LTC3838’s� DRV� CC� current�
�is� limited� to� less� than� 52mA� from� a� 38V� supply� at� T� A� =�
�70°C� in� the� FE� package:�
�T� J� =� 70°C� +� (52mA)(38V)(28°C/W)� =� 125°C�
�To� prevent� the� maximum� junction� temperature� from� being�
�exceeded,� the� input� supply� current� must� be� checked� while�
�operating� in� continuous� conduction� mode� at� maximum� V� IN� .�
�When� the� voltage� applied� to� the� EXTV� CC� pin� rises� above�
�the� switchover� voltage� (typically� 4.6V),� the� V� IN� LDO� is�
�turned� off� and� the� EXTV� CC� is� connected� to� DRV� CC2� pin� with�
�an� internal� switch.� This� switch� remains� on� as� long� as� the�
�voltage� applied� to� EXTV� CC� remains� above� the� hysteresis�
�be� derived� from� the� LTC3838’s� switching� regulator� output�
�V� OUT� during� normal� operation� and� from� the� LDO� when� the�
�output� is� out� of� regulation� (e.g.,� start� up,� short� circuit).� If�
�more� current� is� required� through� the� EXTV� CC� than� is� speci-�
�fied,� an� external� Schottky� diode� can� be� added� between� the�
�EXTV� CC� and� DRV� CC� pins.� Do� not� apply� more� than� 6V� to� the�
�EXTV� CC� pin� and� make� sure� that� EXTV� CC� is� less� than� V� IN� .�
�Significant� efficiency� and� thermal� gains� can� be� realized�
�by� powering� DRV� CC� from� the� switching� converter� output,�
�since� the� V� IN� current� resulting� from� the� driver� and� control�
�currents� will� be� scaled� by� a� factor� of� (Duty� Cycle)/(Switcher�
�Efficiency).�
�Tying� the� EXTV� CC� pin� to� a� 5V� supply� reduces� the� junction�
�temperature� in� the� previous� example� from� 125°C� to:�
�T� J� =� 70°C� +� (52mA)(5V)(28°C/W)� =� 77°C�
�However,� for� 3.3V� and� other� low� voltage� outputs,� ad-�
�ditional� circuitry� is� required� to� derive� DRV� CC� power� from�
�the� converter� output.�
�The� following� list� summarizes� the� four� possible� connec-�
�tions� for� EXTV� CC� :�
�1.� EXTV� CC� left� open� (or� grounded).� This� will� cause� INTV� CC�
�to� be� powered� from� the� internal� 5.3V� LDO� resulting�
�in� an� efficiency� penalty� of� up� to� 10%� at� high� input�
�voltages.�
�2.� EXTV� CC� connected� directly� to� switching� converter� output�
�V� OUT� is� higher� than� the� switchover� voltage’s� higher� limit�
�(4.8V).� This� provides� the� highest� efficiency.�
�3.� EXTV� CC� connected� to� an� external� supply.� If� a� 4.8V� or�
�greater� external� supply� is� available,� it� may� be� used� to�
�power� EXTV� CC� providing� that� the� external� supply� is�
�sufficient� for� MOSFET� gate� drive� requirements.�
�4.� EXTV� CC� connected� to� an� output-derived� boost� network.�
�For� 3.3V� and� other� low� voltage� converters,� efficiency�
�gains� can� still� be� realized� by� connecting� EXTV� CC� to� an�
�output-derived� voltage� that� has� been� boosted� to� greater�
�than� 4.8V.�
�(around� 200mV)� below� the� switchover� voltage.� Using�
�EXTV� CC� allows� the� MOSFET� driver� and� control� power� to�
�3838fa�
�28�
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