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参数资料
| 型号: | LTC1430CN |
| 厂商: | Linear Technology |
| 文件页数: | 13/16页 |
| 文件大小: | 0K |
| 描述: | IC SW REG CNTRLR STEP-DWN 16-DIP |
| 标准包装: | 25 |
| 应用: | 控制器,Intel Pentium? |
| 输入电压: | 4 V ~ 8 V |
| 输出数: | 1 |
| 输出电压: | 3.3V,可调 |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 通孔 |
| 封装/外壳: | 16-DIP(0.300",7.62mm) |
| 供应商设备封装: | 16-PDIP |
| 包装: | 管件 |
��
�
�LTC1430�
�A� PPLICATI�
�Oscillator� Frequency�
�S� I� FOR� ATIO�
�point,� right� at� the� LTC1430� GND� and� PGND� pins.� This�
�The� LTC1430� includes� an� onboard� current� controlled�
�oscillator� which� will� typically� free-run� at� 200kHz.� An�
�internal� 20� μ� A� current� is� summed� with� any� current� in� or� out�
�of� the� FREQSET� pin� (pin� 11),� setting� the� oscillator� fre-�
�quency� to� approximately� 10kHz/� μ� A.� FREQSET� is� internally�
�servoed� to� the� LTC1430� reference� voltage� (1.26V).� With�
�FREQSET� floating,� the� oscillator� is� biased� from� the� internal�
�20� μ� A� source� and� runs� at� 200kHz.� Connecting� a� 50k�
�resistor� from� FREQSET� to� ground� will� sink� an� additional�
�25� μ� A� from� FREQSET,� causing� the� internal� oscillator� to� run�
�at� approximately� 450kHz.� Sourcing� an� external� 10� μ� A�
�current� into� FREQSET� will� cut� the� internal� frequency� to�
�100kHz.� An� internal� clamp� prevents� the� oscillator� from�
�running� slower� than� about� 50kHz.� Tying� FREQSET� to� V� CC�
�will� cause� it� to� run� at� this� minimum� speed.�
�Shutdown�
�The� LTC1430� includes� a� low� power� shutdown� mode,�
�controlled� by� the� logic� at� the� SHDN� pin.� A� high� at� SHDN�
�allows� the� part� to� operate� normally.� A� low� level� at� SHDN�
�stops� all� internal� switching,� pulls� COMP� and� SS� to� ground�
�internally� and� turns� M1� and� M2� off.� In� shutdown,� the�
�LTC1430� itself� will� drop� below� 1� μ� A� quiescent� current�
�typically,� although� off-state� leakage� in� the� external�
�MOSFETs� may� cause� the� total� PV� CC� current� to� be� some-�
�what� higher,� especially� at� elevated� temperatures.� When�
�SHDN� rises� again,� the� LTC1430� will� rerun� a� soft-start� cycle�
�and� resume� normal� operation.� Holding� the� LTC1430� in�
�shutdown� during� PV� CC� power� up� removes� any� PV� CC1�
�sequencing� constraints.�
�LAYOUT� CONSIDERATIONS�
�Grounding�
�Proper� grounding� is� critical� for� the� LTC1430� to� obtain�
�specified� output� regulation.� Extremely� high� peak� currents�
�(as� high� as� several� amps)� can� flow� between� the� bypass�
�capacitors� and� the� PV� CC1� ,� PV� CC2� and� PGND� pins.� These�
�currents� can� generate� significant� voltage� differences� be-�
�tween� two� points� that� are� nominally� both� “ground.”� As� a�
�general� rule,� GND� and� PGND� should� be� totally� separated�
�on� the� layout,� and� should� be� brought� together� at� only� one�
�helps� minimize� internal� ground� disturbances� in� the�
�LTC1430� by� keeping� PGND� and� GND� at� the� same� potential,�
�while� preventing� excessive� current� flow� from� disrupting�
�the� operation� of� the� circuits� connected� to� GND.� The� PGND�
�node� should� be� as� compact� and� low� impedance� as� pos-�
�sible,� with� the� negative� terminals� of� the� input� and� output�
�capacitors,� the� source� of� M2,� the� LTC1430� PGND� node,�
�the� output� return� and� the� input� supply� return� all� clustered�
�at� one� point.� Figure� 11� is� a� modified� schematic� showing�
�the� common� connections� in� a� proper� layout.� Note� that� at�
�10A� current� levels� or� above,� current� density� in� the� PC�
�board� itself� can� become� a� concern;� traces� carrying� high�
�currents� should� be� as� wide� as� possible.�
�Output� Voltage� Sensing�
�The� LTC1430� provides� three� pins� for� sensing� the� output�
�voltage:� SENSE� +� ,� SENSE� –� and� FB.� SENSE� +� and� SENSE� –�
�connect� to� an� internal� resistor� divider� which� is� connected�
�to� FB.� To� set� the� output� of� the� LTC1430� to� 3.3V,� connect�
�SENSE� +� to� the� output� as� near� to� the� load� as� practical� and�
�connect� SENSE� –� to� the� common� GND/PGND� point.� Note�
�that� SENSE� –� is� not� a� true� differential� input� sense� input;� it�
�is� just� the� bottom� of� the� internal� divider� string.� Connecting�
�SENSE� –� to� the� ground� near� the� load� will� not� improve� load�
�regulation.� For� any� other� output� voltage,� the� SENSE� +� and�
�SENSE� –� pins� should� be� floated� and� an� external� resistor�
�string� should� be� connected� to� FB� (Figure� 12).� As� before,�
�connect� the� top� resistor� (R1)� to� the� output� as� close� to� the�
�load� as� practical� and� connect� the� bottom� resistor� (R2)� to�
�the� common� GND/PGND� point.� In� both� cases,� connecting�
�the� top� of� the� resistor� divider� (either� SENSE� +� or� R1)� close�
�to� the� load� can� significantly� improve� load� regulation� by�
�compensating� for� any� drops� in� PC� traces� or� hookup� wires�
�between� the� LTC1430� and� the� load.�
�Power� Component� Hook-Up/Heat� Sinking�
�As� current� levels� rise� much� above� 1A,� the� power� compo-�
�nents� supporting� the� LTC1430� start� to� become� physically�
�large� (relative� to� the� LTC1430,� at� least)� and� can� require�
�special� mounting� considerations.� Input� and� output� ca-�
�pacitors� need� to� carry� high� peak� currents� and� must� have�
�low� ESR;� this� mandates� that� the� leads� be� clipped� as� short�
�as� possible� and� PC� traces� be� kept� wide� and� short.� The�
�13�
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