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| 型号: | LT1373CS8#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 7/12页 |
| 文件大小: | 0K |
| 描述: | IC REG MULTI CONFIG ADJ 8SOIC |
| 标准包装: | 100 |
| 类型: | 降压(降压),升压(升压),反相,Cuk,回扫,正向转换器 |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 1.25 V ~ 35 V |
| 输入电压: | 2.7 V ~ 25 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 250kHz |
| 电流 - 输出: | 1.5A |
| 同步整流器: | 无 |
| 工作温度: | 0°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 管件 |
| 供应商设备封装: | 8-SOIC |
| 产品目录页面: | 1327 (CN2011-ZH PDF) |
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�
�LT1373�
�APPLICATIO� S� I� FOR� ATIO�
�Negative� Output� Voltage� Setting�
�The� LT1373� develops� a� –� 2.45V� reference� (V� NFR� )� from� the�
�NFB� pin� to� ground.� Output� voltage� is� set� by� connecting� the�
�NFB� pin� to� an� output� resistor� divider� (Figure� 2).� The� –� 7� μ� A�
�NFB� pin� bias� current� (I� NFB� )� can� cause� output� voltage� errors�
�and� should� not� be� ignored.� This� has� been� accounted� for� in�
�the� formula� in� Figure� 2.� The� suggested� value� for� R2� is�
�2.49k.� The� FB� pin� is� normally� left� open� for� negative� output�
�applications.� See� Dual� Polarity� Output� Voltage� Sensing� for�
�limitations� of� FB� pin� loading� when� using� the� NFB� pin.�
�A� logic� low� on� the� S/S� pin� activates� shutdown,� reducing�
�the� part’s� supply� current� to� 12� μ� A.� Typical� synchronization�
�range� is� from� 1.05� and� 1.8� times� the� part’s� natural� switch-�
�ing� frequency,� but� is� only� guaranteed� between� 300kHz� and�
�340kHz.� A� 12� μ� s� resetable� shutdown� delay� network� guar-�
�antees� the� part� will� not� go� into� shutdown� while� receiving�
�a� synchronization� signal.�
�Caution� should� be� used� when� synchronizing� above�
�330kHz� because� at� higher� sync� frequencies� the� ampli-�
�tude� of� the� internal� slope� compensation� used� to� prevent�
�(� )�
�–V� OUT� =� V� NFB� 1� +� R1� +� I� NFB� (R1)�
�(� )�
�R1� =� 2.45�
�NFB�
�PIN�
�V� NFR�
�I� NFB�
�–V� OUT�
�R1�
�R2�
�R2�
�?� V� OUT� ?� –� 2.45�
�+� (7� ?� 10� –6� )�
�R2�
�subharmonic� switching� is� reduced.� This� type� of�
�subharmonic� switching� only� occurs� when� the� duty� cycle�
�of� the� switch� is� above� 50%.� Higher� inductor� values� will�
�tend� to� eliminate� problems.�
�Thermal� Considerations�
�LT1373� ?� F02�
�Figure� 2.� Negative� Output� Resistor� Divider�
�Dual� Polarity� Output� Voltage� Sensing�
�Certain� applications� benefit� from� sensing� both� positive�
�and� negative� output� voltages.� One� example� is� the� Dual�
�Output� Flyback� Converter� with� Overvoltage� Protection�
�circuit� shown� in� the� Typical� Applications� section.� Each�
�output� voltage� resistor� divider� is� individually� set� as� de-�
�scribed� above.� When� both� the� FB� and� NFB� pins� are� used,�
�the� LT1373� acts� to� prevent� either� output� from� going�
�beyond� its� set� output� voltage.� For� example� in� this� applica-�
�tion,� if� the� positive� output� were� more� heavily� loaded� than�
�the� negative,� the� negative� output� would� be� greater� and�
�would� regulate� at� the� desired� set-point� voltage.� The� posi-�
�tive� output� would� sag� slightly� below� its� set-point� voltage.�
�This� technique� prevents� either� output� from� going� unregu-�
�lated� high� at� no� load.� Please� note� that� the� load� on� the� FB�
�pin� should� not� exceed� 100� μ� A� when� the� NFB� pin� is� used.�
�This� situation� occurs� when� the� resistor� dividers� are� used�
�at� both� FB� and� NFB.� True� load� on� FB� is� not� the� full� divider�
�current� unless� the� positive� output� is� shorted� to� ground.�
�See� Dual� Output� Flyback� Converter� application.�
�Shutdown� and� Synchronization�
�The� dual� function� S/S� pin� provides� easy� shutdown� and�
�synchronization.� It� is� logic� level� compatible� and� can� be�
�pulled� high,� tied� to� V� IN� or� left� floating� for� normal� operation.�
�Care� should� be� taken� to� ensure� that� the� worst-case� input�
�voltage� and� load� current� conditions� do� not� cause� exces-�
�sive� die� temperatures.� The� packages� are� rated� at� 120� °� C/W�
�for� SO� (S8)� and� 130� °� C/W� for� PDIP� (N8).�
�Average� supply� current� (including� driver� current)� is:�
�I� IN� =� 1mA� +� DC� (I� SW� /60� +� I� SW� ?� 0.004)�
�I� SW� =� switch� current�
�DC� =� switch� duty� cycle�
�Switch� power� dissipation� is� given� by:�
�P� SW� =� (I� SW� )� 2� ?� R� SW� ?� DC�
�R� SW� =� output� switch� “On”� resistance�
�Total� power� dissipation� of� the� die� is� the� sum� of� supply�
�current� times� supply� voltage� plus� switch� power:�
�P� D(TOTAL)� =� (I� IN� ?� V� IN� )� +� P� SW�
�Choosing� the� Inductor�
�For� most� applications� the� inductor� will� fall� in� the� range� of�
�10� μ� H� to� 50� μ� H.� Lower� values� are� chosen� to� reduce� physical�
�size� of� the� inductor.� Higher� values� allow� more� output�
�current� because� they� reduce� peak� current� seen� by� the�
�power� switch� which� has� a� 1.5A� limit.� Higher� values� also�
�reduce� input� ripple� voltage,� and� reduce� core� loss.�
�When� choosing� an� inductor� you� might� have� to� consider�
�maximum� load� current,� core� and� copper� losses,� allowable�
�7�
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