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| 型号: | LTC1266IS#TR |
| 厂商: | Linear Technology |
| 文件页数: | 11/20页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST PWM CM 16-SOIC |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 400kHz |
| 占空比: | 100% |
| 电源电压: | 3.5 V ~ 18 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: | 16-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
��
�
�LTC1266�
�LTC1266-3.3/LTC1266-5�
�APPLICATIO� S� I� FOR� ATIO�
�From� the� duty� cycles,� the� required� R� DS(ON)� for� each�
�MOSFET� can� be� derived:�
�This� formula� has� a� maximum� at� V� IN� =� 2V� OUT� ,� where�
�I� RMS� =� I� OUT� /2.� This� simple� worst-case� condition� is� com-�
�TS� R� DS(ON)� =�
�V� IN� ?� P� T�
�V� OUT� ?� I� MAX2� ?� (1� +� δ� T� )�
�monly� used� for� design� because� even� significant� devia-�
�tions� do� not� offer� much� relief.� Note� that� capacitor�
�manufacturer’s� ripple� current� ratings� are� often� based� on�
�BS� R� DS(ON)� =�
�V� IN� ?� P� B�
�(V� IN� –� V� OUT� )� ?� I� MAX2� ?� (1� +� δ� B� )�
�where� P� T� and� P� B� are� the� allowable� power� dissipations� and�
�δ� T� and� δ� B� are� the� temperature� dependencies� of� R� DS(ON)� .� P� T�
�and� P� B� will� be� determined� by� efficiency� and/or� thermal�
�requirements� (see� Efficiency� Considerations).� For� a� MOSFET,�
�(1� +� δ� )� is� generally� given� in� the� form� of� a� normalized�
�R� DS(ON)� vs� temperature� curve,� but� δ� PCH� =� 0.007/� °� C� and�
�δ� NCH� =� 0.005/� °� C� can� be� used� as� an� approximation� for� low�
�voltage� MOSFETs.�
�The� minimum� input� voltage� determines� whether� standard�
�threshold� or� logic-level� threshold� MOSFETs� must� be� used.�
�For� V� IN� >� 8V,� standard� threshold� MOSFETs� (V� GS(TH)� <� 4V)�
�may� be� used.� If� V� IN� is� expected� to� drop� below� 8V,� logic-�
�level� threshold� MOSFETs� (V� GS(TH)� <� 2.5V)� are� strongly�
�recommended.� The� LTC1266� series� Power� V� IN� must� al-�
�ways� be� less� than� the� absolute� maximum� V� GS� ratings� for�
�the� MOSFETs.�
�The� Schottky� diode� D1� shown� in� Figure� 1� only� conducts�
�during� the� deadtime� between� the� conduction� of� the� two�
�power� MOSFETs.� D1’s� sole� purpose� in� life� is� to� prevent� the�
�body� diode� of� the� bottom-side� MOSFET� from� turning� on�
�and� storing� charge� during� the� deadtime,� which� could� cost�
�as� much� as� 1%� in� efficiency� (although� there� are� no� other�
�harmful� effects� if� D1� is� omitted).� Therefore,� D1� should� be�
�selected� for� a� forward� voltage� of� less� than� 0.7V� when�
�conducting� I� MAX� .�
�C� IN� and� C� OUT� Selection�
�In� continuous� mode,� the� current� through� the� topside�
�MOSFET� is� a� square� wave� of� duty� cycle� V� OUT� /V� IN� .� To�
�prevent� large� voltage� transients,� a� low� ESR� (Effective�
�Series� Resistance)� input� capacitor� sized� for� the� maximum�
�RMS� current� must� be� used.� The� maximum� RMS� capacitor�
�current� is� given� by:�
�only� 2000� hours� of� life.� This� makes� it� advisable� to� further�
�derate� the� capacitor,� or� to� choose� a� capacitor� rated� at� a�
�higher� temperature� than� required.� Always� consult� the�
�manufacturer� if� there� is� any� question.� An� additional� 0.1� μ� F�
�to� 1� μ� F� ceramic� capacitor� is� also� required� on� Power� V� IN�
�(Pin� 2)� for� high� frequency� decoupling.�
�The� selection� of� C� OUT� is� driven� by� the� required� ESR.� The�
�ESR� of� C� OUT� must� be� less� than� twice� the� value� of� R� SENSE�
�for� proper� operation� of� the� LTC1266� series:�
�C� OUT� Required� ESR� <� 2R� SENSE�
�Optimum� efficiency� is� obtained� by� making� the� ESR� equal�
�to� R� SENSE� .� As� the� ESR� is� increased� up� to� 2R� SENSE� ,� the�
�efficiency� degrades� by� less� than� 1%.� If� the� ESR� is� greater�
�than� 2R� SENSE� ,� the� voltage� ripple� on� the� output� capacitor�
�will� prematurely� trigger� Burst� Mode� operation,� resulting� in�
�disruption� of� continuous� mode� and� an� efficiency� hit� which�
�can� be� several� percent.� If� Burst� Mode� operation� is� dis-�
�abled,� the� ESR� requirement� can� be� relaxed� and� is� limited�
�only� by� the� allowable� output� voltage� ripple.�
�Manufacturers� such� as� Nichicon� and� United� Chemicon�
�should� be� considered� for� high� performance� capacitors.�
�The� OS-CON� semiconductor� dielectric� capacitor� available�
�from� Sanyo� has� the� lowest� ESR/size� ratio� of� any� aluminum�
�electrolytic� at� a� somewhat� higher� price.� Once� the� ESR�
�requirement� for� C� OUT� has� been� met,� the� RMS� current�
�rating� generally� far� exceeds� the� I� RIPPLE(P-P)� requirement.�
�In� surface� mount� applications� multiple� capacitors� may�
�have� to� be� paralleled� to� meet� the� capacitance,� ESR� or� RMS�
�current� handling� requirements� of� the� application.� An�
�excellent� choice� is� the� AVX� TPS� series� of� surface� mount�
�tantalums.�
�At� low� supply� voltages,� a� minimum� capacitance� at� C� OUT�
�is� needed� to� prevent� an� abnormal� low� frequency� oper-�
�ating� mode� (see� Figure� 4).� When� C� OUT� is� made� too�
�small,� the� output� ripple� at� low� frequencies� will� be� large�
�C� IN� Required� I� RMS� ≈� I� MAX�
�[V� OUT� (V� IN� –� V� OUT� )]� 1/2�
�V� IN�
�enough� to� trip� the� voltage� comparator.� This� causes�
�Burst� Mode� operation� to� be� activated� when� the� LTC1266�
�11�
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