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| 型号: | LT1737IS#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 19/28页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR FLYBK ISO CM 16SOIC |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 125kHz |
| 占空比: | 90% |
| 电源电压: | 4.1 V ~ 20 V |
| 降压: | 无 |
| 升压: | 无 |
| 回扫: | 是 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 是 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 16-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
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�LT1737�
�APPLICATIO� S� I� FOR� ATIO�
�(� V� F� SC� SEC� )� where�
�MAXIMUM LOAD/SHORT-CIRCUIT CONSIDERATIONS�
�The� LT1737� is� a� current� mode� controller.� It� uses� the� V� C�
�node� voltage� as� an� input� to� a� current� comparator� that� turns�
�off� the� output� switch� on� a� cycle-by-cycle� basis� as� this� peak�
�current� is� reached.� The� internal� clamp� on� the� V� C� node,�
�nominally� 2.5V,� then� acts� as� an� output� switch� peak� current�
�limit.�
�This� 2.5V� at� the� V� C� pin� corresponds� to� a� value� of� 250mV�
�at� the� I� SENSE� pin,� when� the� (ON)� switch� duty� cycle� is� less�
�than� 40%.� For� a� duty� cycle� above� 40%,� the� internal� slope�
�compensation� mechanism� lowers� the� effective� I� SENSE�
�voltage� limit.� For� example,� at� a� duty� cycle� of� 80%,� the�
�nominal� I� SENSE� voltage� limit� is� 220mV.� This� action� be-�
�comes� the� switch� current� limit� specification.� Maximum�
�available� output� power� is� then� determined� by� the� switch�
�current� limit,� which� is� somewhat� duty� cycle� dependent�
�due� to� internal� slope� compensation� action.�
�Overcurrent� conditions� are� handled� by� the� same� mecha-�
�nism.� The� output� switch� turns� on,� the� peak� current� is�
�quickly� reached� and� the� switch� is� turned� off.� Because� the�
�output� switch� is� only� on� for� a� small� fraction� of� the� available�
�period,� power� dissipation� is� controlled.�
�Loss� of� current� limit� is� possible� under� certain� conditions.�
�Remember� that� the� LT1737� normally� exhibits� a� minimum�
�switch� on� time,� irrespective� of� current� trip� point.� If� the� duty�
�cycle� exhibited� by� this� minimum� on� time� is� greater� than� the�
�ratio� of� secondary� winding� voltage� (referred-to-primary)�
�divided� by� input� voltage,� then� peak� current� will� not� be�
�controlled� at� the� nominal� value,� and� will� cycle-by-cycle�
�ratchet� up� to� some� higher� level.� Expressed� mathemati-�
�cally,� the� requirement� to� maintain� short-circuit� control� is:�
�+� I� ?� R�
�t� ON� ?� f� <�
�V� IN� ?� N� SP�
�t� ON� =� output� switch� minimum� on� time�
�f� =� switching� frequency�
�I� SC� =� short-circuit� output� current�
�V� F� =� output� diode� forward� voltage� at� I� SC�
�R� SEC� =� resistance� of� transformer� secondary�
�V� IN� =� input� voltage�
�N� SP� =� secondary-to-primary� turns� ratio� (N� SEC� /N� PRI� )�
�Trouble� is� typically� only� encountered� in� applications� with�
�a� relatively� high� product� of� input� voltage� times� secondary-�
�to-primary� turns� ratio� and/or� a� relatively� long� minimum�
�switch� on� time.� (Additionally,� several� real� world� effects� such�
�as� transformer� leakage� inductance,� AC� winding� losses,� and�
�output� switch� voltage� drop� combine� to� make� this� simple�
�theoretical� calculation� a� conservative� estimate.)�
�THERMAL� CONSIDERATIONS�
�Care� should� be� taken� to� ensure� that� the� worst-case� input�
�voltage� condition� does� not� cause� excessive� die� tempera-�
�tures.� The� 16-lead� SO� package� is� rated� at� 100� °� C/W,� and�
�the� 16-lead� GN� at� 110� °� C/W.�
�Average� supply� current� is� simply� the� sum� of� quiescent�
�current� given� in� the� specifications� section� plus� gate� drive�
�current.� Gate� drive� current� can� be� computed� as:�
�I� G� =� f� ?� Q� G� where�
�Q� G� =� total� gate� charge�
�f� =� switching� frequency�
�(Note:� Total� gate� charge� is� more� complicated� than� C� GS� ?� V� G�
�as� it� is� frequently� dominated� by� Miller� effect� of� the� C� GD� .�
�Furthermore,� both� capacitances� are� nonlinear� in� practice.�
�Fortunately,� most� MOSFET� data� sheets� provide� figures�
�and� graphs� which� yield� the� total� gate� charge� directly� per�
�operating� conditions.)� Nearly� all� gate� drive� power� is� dissi-�
�pated� in� the� IC,� except� for� a� small� amount� in� the� external�
�gate� series� resistor,� so� total� IC� dissipation� may� be� com-�
�puted� as:�
�P� D(TOTAL)� =� V� CC� (I� Q� +� ?� f� ?� Q� G� ),� where�
�I� Q� =� quiescent� current� (from� specifications)�
�Q� G� =� total� gate� charge�
�f� =� switching� frequency�
�V� CC� =� LT1737� supply� voltage�
�SWITCH� NODE� CONSIDERATIONS�
�For� maximum� efficiency,� gate� drive� rise� and� fall� times� are�
�made� as� short� as� practical.� To� prevent� radiation� and� high�
�frequency� resonance� problems,� proper� layout� of� the�
�components� connected� to� the� IC� is� essential,� especially�
�1737fa�
�19�
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