参数资料
| 型号: | LTC3780EG#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 15/30页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST PWM CM 24-SSOP |
| 标准包装: | 59 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 440kHz |
| 占空比: | 99% |
| 电源电压: | 4 V ~ 36 V |
| 降压: | 是 |
| 升压: | 是 |
| 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 ~ 85°C |
| 封装/外壳: | 24-SSOP(0.209",5.30mm 宽) |
| 包装: | 管件 |
| 产品目录页面: | 1336 (CN2011-ZH PDF) |
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�LTC3780�
�OPERATION�
�on.� switch� A� and� synchronous� switch� B� are� alternately�
�turned� on� to� maintain� the� output� voltage� independent� of�
�direction� of� inductor� current.� Every� ten� cycles,� synchro-�
�nous� switch� D� is� forced� off� for� about� 300ns� to� allow� C� B�
�to� recharge.� This� is� the� least� efficient� operating� mode� at�
�light� load,� but� may� be� desirable� in� certain� applications.� In�
�this� mode,� the� output� can� source� or� sink� current.�
�When� the� FCB� pin� voltage� is� below� V� INTVCC� –� 1V,� but� greater�
�than� 0.8V,� the� controller� enters� Burst� Mode� operation� in�
�boost� operation� or� enters� skip-cycle� mode� in� buck� opera-�
�tion.� During� boost� operation,� Burst� Mode� operation� sets� a�
�minimum� output� current� level� before� inhibiting� the� switch�
�C� and� turns� off� synchronous� switch� D� when� the� inductor�
�current� goes� negative.� This� combination� of� requirements�
�will,� at� low� currents,� force� the� I� TH� pin� below� a� voltage�
�threshold� that� will� temporarily� inhibit� turn-on� of� power�
�switches� C� and� D� until� the� output� voltage� drops.� There� is�
�100mV� of� hysteresis� in� the� burst� comparator� tied� to� the�
�I� TH� pin.� This� hysteresis� produces� output� signals� to� the�
�MOSFETs� C� and� D� that� turn� them� on� for� several� cycles,�
�followed� by� a� variable� “sleep”� interval� depending� upon� the�
�load� current.� The� maximum� output� voltage� ripple� is� limited�
�to� 3%� of� the� nominal� DC� output� voltage� as� determined�
�by� a� resistive� feedback� divider.� During� buck� operation� at�
�no� load,� switch� A� is� turned� on� for� its� minimum� on-time.�
�This� will� not� occur� every� clock� cycle� when� the� output� load�
�current� drops� below� 1%� of� the� maximum� designed� load.�
�The� body� diode� of� synchronous� switch� B� or� the� Schottky�
�diode,� which� is� in� parallel� with� switch� B,� is� used� to� dis-�
�charge� the� inductor� current;� switch� B� only� turns� on� every�
�ten� clock� cycles� to� allow� C� B� to� recharge.� As� load� current�
�is� applied,� switch� A� turns� on� every� cycle,� and� its� on-time�
�begins� to� increase.� At� higher� current,� switch� B� turns� on�
�briefly� after� each� turn-off� of� switch� A.� switches� C� and� D�
�remain� off� at� light� load,� except� to� refresh� CA� (Figure� 11)�
�every� 10� clock� cycles.� In� Burst� Mode� operation/skip-cycle�
�mode,� the� output� is� prevented� from� sinking� current.�
�When� the� FCB� pin� voltage� is� tied� to� the� INTV� CC� pin,� the�
�controller� enters� constant� frequency� discontinuous� current�
�mode� (DCM).� For� boost� operation,� synchronous� switch� D�
�is� held� off� whenever� the� I� TH� pin� is� below� a� threshold� volt-�
�age.� In� every� cycle,� switch� C� is� used� to� charge� inductor�
�current.� After� the� output� voltage� is� high� enough,� the�
�controller� will� enter� continuous� current� buck� mode� for�
�one� cycle� to� discharge� inductor� current.� In� the� following�
�cycle,� the� controller� will� resume� DCM� boost� operation.� For�
�buck� operation,� constant� frequency� discontinuous� current�
�mode� sets� a� minimum� negative� inductor� current� level.�
�synchronous� switch� B� is� turned� off� whenever� inductor�
�current� is� lower� than� this� level.� At� very� light� loads,� this�
�constant� frequency� operation� is� not� as� efficient� as� Burst�
�Mode� operation� or� skip-cycle,� but� does� provide� lower�
�noise,� constant� frequency� operation.�
�FREQUENCY� SYNCHRONIZATION� AND�
�FREQUENCY� SETUP�
�The� phase-locked� loop� allows� the� internal� oscillator� to� be�
�synchronized� to� an� external� source� via� the� PLLIN� pin.� The�
�phase� detector� output� at� the� PLLFLTR� pin� is� also� the� DC�
�frequency� control� input� of� the� oscillator.� The� frequency�
�ranges� from� 200kHz� to� 400kHz,� corresponding� to� a� DC�
�voltage� input� from� 0V� to� 2.4V� at� PLLFLTR.� When� locked,�
�the� PLL� aligns� the� turn� on� of� the� top� MOSFET� to� the� ris-�
�ing� edge� of� the� synchronizing� signal.� When� PLLIN� is� left�
�open,� the� PLLFLTR� pin� goes� low,� forcing� the� oscillator� to�
�its� minimum� frequency.�
�INTV� CC� /EXTV� CC� Power�
�Power� for� all� power� MOSFET� drivers� and� most� inter-�
�nal� circuitry� is� derived� from� the� INTV� CC� pin.� When� the�
�EXTV� CC� pin� is� left� open,� an� internal� 6V� low� dropout� linear�
�regulator� supplies� INTV� CC� power.� If� EXTV� CC� is� taken� above�
�5.7V,� the� 6V� regulator� is� turned� off� and� an� internal� switch�
�is� turned� on,� connecting� EXTV� CC� to� INTV� CC� .� This� allows�
�the� INTV� CC� power� to� be� derived� from� a� high� efficiency�
�external� source.�
�POWER� GOOD� (PGOOD)� PIN�
�The� PGOOD� pin� is� connected� to� an� open� drain� of� an� internal�
�MOSFET.� The� MOSFET� turns� on� and� pulls� the� pin� low� when�
�the� output� is� not� within� ±7.5%� of� the� nominal� output� level�
�as� determined� by� the� resistive� feedback� divider.� When�
�the� output� meets� the� ±7.5%� requirement,� the� MOSFET�
�is� turned� off� and� the� pin� is� allowed� to� be� pulled� up� by� an�
�external� resistor� to� a� source� of� up� to� 7V.�
�3780ff�
�For� more� information� www.linear.com/LTC3780�
�15�
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