参数资料
| 型号: | SC121ULTRT |
| 厂商: | Semtech |
| 文件页数: | 17/23页 |
| 文件大小: | 0K |
| 描述: | IC REG BOOST SYNC 3.3V/ADJ 6MLPD |
| 标准包装: | 1 |
| 类型: | 升压(升压) |
| 输出类型: | 两者兼有 |
| 输出数: | 1 |
| 输出电压: | 3.3V,1.8 V ~ 5 V |
| 输入电压: | 0.7 V ~ 4.5 V |
| 频率 - 开关: | 1.2MHz |
| 电流 - 输出: | 500mA |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 6-MLPD-UT |
| 包装: | 标准包装 |
| 供应商设备封装: | 6-MLPD-UT(1.5x2.0) |
| 其它名称: | SC121ULTRTDKR |
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�
�SC121�
�Applications� Information� (continued)�
�PWM� Operation�
�The� PWM� cycle� runs� at� a� fixed� frequency� (f� osc� =� 1.2MHz),�
�with� a� variable� duty� cycle� (D).� PWM� operation� continually�
�draws� current� from� the� input� supply,� except� for� low�
�output� loads� in� which� current� flows� periodically� from,� and�
�back� into,� the� input.� During� the� on-state� of� the� PWM�
�cycle,� the� n-channel� FET� is� turned� on,� grounding� the�
�inductor� at� the� LX� pin.� This� causes� the� current� flowing�
�from� the� input� supply� through� the� inductor� to� ground� to�
�ramp� up.� During� the� off-state,� the� n-channel� FET� is� turned�
�off� and� the� p-channel� FET� (synchronous� rectifier)� is� turned�
�on.� This� causes� the� inductor� current� to� flow� from� the�
�input� supply� through� the� inductor� into� the� output� capaci-�
�tor� and� load,� boosting� the� output� voltage� above� the� input�
�voltage.� The� cycle� then� repeats� to� re-energize� the�
�inductor.�
�Ideally,� the� steady� state� (constant� load)� duty� cycle� is�
�determined� by� D� =� 1� –� (V� IN� /V� OUT� ),� but� must� be� greater� in�
�practice� to� overcome� dissipative� losses.� The� SC121� PWM�
�controller� constrains� the� value� of� D� such� that� 0.20� <� D� <� 0.90�
�(approximately).�
�The� average� inductor� current� during� the� off-state� multi-�
�plied� by� (1-D)� is� equal� to� the� average� load� current.� The�
�inductor� current� is� alternately� ramping� up� (on-state)� and�
�down� (off-state)� at� a� rate� and� amplitude� determined� by�
�the� inductance� value,� the� input� voltage,� and� the� on-time�
�(T� ON� =� D×T,� T� =� 1/f� OSC� ).� Therefore,� the� instantaneous� induc-�
�tor� current� will� be� alternately� larger� and� smaller� than� the�
�average.�
�If� the� average� output� current� is� sufficiently� small,� the�
�minimum� inductor� current� can� ramp� down� to� zero� during�
�the� off-state.� Discontinuous� mode� operation� (where� both�
�FETs� turn� off� as� the� inductor� current� reaches� zero)� is� not�
�supported� in� the� SC121,� since� this� would� result� in� a� finite�
�positive� minimum� current� from� input� to� output,� which�
�would� cause� an� uncontrolled� rise� in� output� voltage� in� this�
�case.� Instead,� the� inductor� current� will� reverse� for� the�
�remainder� of� the� off-state,� flowing� from� the� output�
�capacitor� into� the� OUT� pin,� through� the� p-channel� FET� to�
�the� LX� pin,� and� through� the� inductor� to� the� input� capaci-�
�tor.� Negative� inductor� current� ripple� allows� regulation�
�even� with� zero� output� load.� The� energy� returned� to� the�
�input� capacitor� is� not� wasted,� but� dissipative� conduction�
�losses� will� inevitably� occur.�
�The� minimum� on-time� limitation� imposes� a� minimum�
�boost� ratio,� so� if� V� IN� is� too� close� to� V� OUT� (V� IN� >� V� OUT� –� 400mV,�
�approximately),� V� OUT� will� rise� above� the� programmed�
�value� for� a� suffi� ciently� small� output� load.� A� higher� output�
�load� requires� a� higher� duty� cycle� to� overcome� dissipative�
�losses,� such� that� regulation� at� programmed� V� OUT� will�
�eventually� be� restored.� But� this� regulation-restoration�
�load� rises� rapidly� with� V� IN� ,� so� this� phenomenon� can� be�
�beneficially� exploited� in� only� rare� circumstances.� If� opera-�
�tion� with� high� V� IN� and� low� load� is� required,� please� consider�
�using� the� SC120,� a� pin� compatible� dual� mode� (PWM/�
�PSAVE)� boost� converter.� The� SC120� will� support� zero� load�
�in� PSAVE� mode� for� V� IN� up� to� V� OUT� +� 150mV.�
�Regulator� Startup,� Short� Circuit� Protection,�
�and� Current� Limits�
�The� SC121� permits� power� up� at� input� voltages� from� 0.85V�
�to� 4.5V.� Soft-start� startup� current� limiting� of� the� internal�
�switching� n-channel� and� p-channel� FET� power� devices�
�protects� them� from� damage� in� the� event� of� a� short�
�between� OUT� and� GND.� As� the� output� voltage� rises,� pro-�
�gressively� less-restrictive� current� limits� are� applied.� This�
�protection� unavoidably� prevents� startup� into� an� exces-�
�sive� load.�
�Upon� enable,� the� p-channel� FET� between� the� LX� and� OUT�
�pins� turns� on� with� its� current� limited� to� approximately�
�150mA,� the� short-circuit� output� current.� When� V� OUT�
�approaches� V� IN� (but� is� still� below� 1.7V),� the� n-channel�
�current� limit� is� set� to� 350mA� (the� p-channel� limit� is� dis-�
�abled),� the� internal� oscillator� turns� on� (approximately�
�200kHz),� and� a� fixed� 75%� duty� cycle� PWM� operation�
�begins.� (See� the� section� PWM� Operation.)� When� the�
�output� voltage� exceeds� 1.7V,� fixed� frequency� PWM� opera-�
�tion� begins,� with� the� duty� cycle� determined� by� an� n-�
�channel� FET� peak� current� limit� of� 350mA.� When� this�
�n-channel� FET� startup� current� limit� is� exceeded,� the� on-�
�state� ends� immediately� and� the� off-state� begins.� This�
�determines� the� duty� cycle� on� a� cycle-by-cycle� basis.�
�When� V� OUT� is� within� 2%� of� the� programmed� regulation�
�voltage,� the� n-channel� FET� current� limit� is� raised� to� 1.2A,�
�and� normal� voltage� regulation� PWM� control� begins.�
�Once� normal� voltage� regulation� PWM� control� is� initiated,�
�the� output� becomes� independent� of� V� IN� and� output� regu-�
�lation� can� be� maintained� for� V� IN� as� low� as� 0.7V,� subject� to�
�the� maximum� duty� cycle� and� peak� current� limits.� The�
�17�
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