参数资料
| 型号: | LT1680ISW#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 11/16页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST PWM CM 16-SOIC |
| 标准包装: | 47 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 200kHz |
| 占空比: | 90% |
| 电源电压: | 4 V ~ 60 V |
| 降压: | 无 |
| 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: | 16-SOIC(0.295",7.50mm 宽) |
| 包装: | 管件 |
| 产品目录页面: | 1328 (CN2011-ZH PDF) |
��
�
�LT1680�
�APPLICATIO� S� I� FOR� ATIO�
�clamped� to� 2.5V� through� a� 20k� series� input� resistance� and�
�will� therefore� draw� 0.5mA� when� tied� directly� to� 12V.� This�
�additional� current� can� be� minimized� by� making� the� con-�
�nection� through� an� external� resistor� (100k� is� typically� used).�
�Oscillator� Synchronization�
�The� LT1680� oscillator� generates� a� modified� sawtooth�
�waveform� at� the� C� T� pin� between� low� and� high� thresholds�
�of� 0.8V� (vl)� and� 2.5V� (vh)� respectively.� The� oscillator� can�
�be� synchronized� by� driving� a� TTL� level� pulse� into� the� SYNC�
�pin.� This� pin� connects� to� a� one� shot� circuit� that� reduces� the�
�oscillator� high� threshold� to� 2V� for� about� 200ns.� The� SYNC�
�input� signal� should� have� minimum� on/off� times� of� ≥� 1� μ� s.�
�The� inductor� core� type� is� determined� by� peak� current� and�
�efficiency� requirements.� The� inductor� core� must� with-�
�stand� this� peak� current� without� saturating,� and� the� series�
�winding� resistance� and� core� losses� should� be� kept� as�
�small� as� is� practical� to� maximize� conversion� efficiency.�
�The� LT1680� peak� current� threshold� is� 40%� greater� than�
�the� average� limit� threshold.� Slope� compensation� effects�
�reduce� this� margin� as� duty� cycle� increases.� This� margin�
�must� be� maintained� to� prevent� peak� current� limit� from�
�corrupting� the� programmed� value� for� average� current�
�limit.� Programming� the� peak� ripple� current� to� less� than�
�15%� of� the� desired� average� current� limit� value� will� assure�
�proper� operation� of� the� average� current� limit� feature�
�through� 90%� duty� cycle� (see� Slope� Compensation).�
�2.5V�
�SYNC�
�(vh)�
�Slope� Compensation�
�Current� mode� switching� regulators� that� operate� with� a�
�2V�
�V� CT�
�duty� cycle� greater� than� 50%� and� have� continuous� inductor�
�current� can� exhibit� duty� cycle� instability.� While� a� regulator�
�will� not� be� damaged� and� may� even� continue� to� function�
�0.8V�
�FREE� RUN�
�SYNCHRONIZED�
�(vl)�
�1680� F04�
�acceptably� during� this� type� of� subharmonic� oscillation,� an�
�irritating� high-pitched� squeal� is� usually� produced.�
�V� IN� (� V� OUT� –� V� IN� )�
�(� ?� I� )(� f� O� )(� V� OUT� )�
�V� IN� (� V� OUT� –� V� IN� )�
�(� 2� )(� L� )(� f� O� )(� V� OUT� )�
�Figure 4. Free Run and Synchronized Oscillator�
�Waveforms� (at� C� T� Pin)�
�Inductor� Selection�
�The� inductor� for� an� LT1680� converter� is� selected� based� on�
�output� power,� operating� frequency� and� efficiency� require-�
�ments.� Generally,� the� selection� of� inductor� value� can� be�
�reduced� to� desired� maximum� ripple� current� in� the� inductor�
�(� ?� I).� For� a� boost� converter,� the� minimum� inductor� value�
�for� a� given� operating� ripple� current� can� be� determined�
�using� the� following� relation:�
�L� MIN� =�
�Given� an� inductor� value� (L),� the� peak� inductor� current� is�
�the� sum� of� the� average� inductor� current� (I� AVG� )� and� half� the�
�inductor� ripple� current� (� ?� I),� or:�
�I� PK� =� I� AVG� +�
�The� criterion� for� current� mode� duty� cycle� instability� is�
�met� when� the� increasing� slope� of� the� inductor� ripple�
�current� is� less� than� the� decreasing� slope,� which� is� the�
�case� at� duty� cycles� greater� than� 50%.� This� condition� is�
�illustrated� in� Figure� 5a.� The� inductor� ripple� current� starts�
�at� I� 1� ,� the� beginning� of� each� oscillator� switch� cycle.�
�Current� increases� at� a� rate� S1� until� the� current� reaches�
�the� control� trip� level� I� 2� .� The� controller� servo� loop� then�
�disables� the� switch� and� inductor� current� begins� to� de-�
�crease� at� a� rate� S2.� If� the� current� switch� point� (I� 2� )� is�
�perturbed� slightly� and� increased� by� ?� I,� the� cycle� time�
�ends� such� that� the� minimum� current� point� is� increased� by�
�a� factor� of� 1� +� (S2/S1)� to� start� the� next� cycle.� On� each�
�successive� cycle,� this� error� is� multiplied� by� a� factor� of� S2/�
�S1.� Therefore,� if� S2/S1� is� ≥� 1,� the� system� is� unstable.�
�Subharmonic� oscillations� can� be� eliminated� by� augment-�
�ing� the� increasing� ripple� current� slope� (S1)� in� the� control�
�loop.� This� is� accomplished� by� adding� an� artificial� ramp� on�
�the� inductor� current� waveform� internal� to� the� IC� (with� a�
�slope� S� X� )� as� shown� in� Figure� 5b.� If� the� sum� of� the� slopes�
�11�
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