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参数资料
| 型号: | NCP1028LEDGEVB |
| 厂商: | ON Semiconductor |
| 文件页数: | 11/29页 |
| 文件大小: | 0K |
| 描述: | EVAL BOARD FOR NCP1028LEDG |
| 设计资源: | NCP1028LEDGEVB BOM CP1028LEDGEVB Gerber Files NCP1028LED EVB Schematic |
| 标准包装: | 1 |
| 电流 - 输出 / 通道: | 720mA |
| 输出及类型: | 1,隔离 |
| 输出电压: | 18V |
| 输入电压: | 90 ~ 265VAC |
| 已供物品: | 板 |
| 已用 IC / 零件: | NCP1028 |
| 其它名称: | NCP1028LEDGEVBOS |
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�
�NCP1028�
�Startup� Sequence�
�The� NCP1028� includes� a� high-voltage� startup� circuitry,�
�directly� deriving� current� from� the� bulk� line� to� charge� the�
�Vbulk�
�I1�
�RV� CC�
�V� CC� capacitor.� Figure� 23� details� the� simplified� internal�
�arrangement.�
�+�
�I2�
�1�
�ICC1�
�I� clamp�
�IC1�
�←�
�-� +�
�5�
�+�
�CV� CC�
�Vz� =� 8.7� V�
�V� CCon�
�V� CCoff�
�+�
�8�
�Figure� 23.� Internal� Arrangement� of� the� Startup� Circuitry�
�When� the� power� supply� is� first� connected� to� the� mains�
�outlet,� the� internal� current� source� is� biased� and� charges� up�
�the� V� CC� capacitor.� When� the� voltage� on� this� V� CC� capacitor�
�reaches� the� VCC� ON� level� (typically� 8.5� V),� the� current�
�source� turns� off,� reducing� the� amount� of� power� being�
�dissipated.� At� this� time,� the� V� CC� capacitor� only� supplies� the�
�controller,� and� the� auxiliary� supply� should� take� over� before�
�V� CC� collapses� below� VCC� (min)� .� This� V� CC� capacitor,� CV� CC� ,�
�must� therefore� be� calculated� to� hold� enough� energy� so� that�
�V� CC� stays� above� VCC� (min)� (7.3� V� typical)� until� the�
�auxiliary� voltage� fully� takes� over.�
�An� auxiliary� winding� is� needed� to� maintain� the� V� CC� in�
�order� to� self-supply� the� switcher.� The� V� CC� capacitor� has�
�only� a� supply� role� and� its� value� does� not� impact� other�
�parameters� such� as� fault� duration� or� the� frequency� sweep�
�period� for� instance.� As� one� can� see� in� Figure� 23,� an� internal�
�active� Zener� diode,� protects� the� switcher� against� lethal� V� CC�
�runaways.� This� situation� can� occur� if� the� feedback� loop�
�optocoupler� fails,� for� instance,� and� you� would� like� to�
�protect� the� converter� against� an� over� voltage� event.�
�The� V� CC� capacitor� can� be� calculated� knowing� a)� the�
�amount� of� energy� that� needs� to� be� stored;� b)� the� time� it�
�takes� for� the� auxiliary� voltage� to� appear,� and;� c)� the� current�
�consumed� by� the� controller� at� that� time.� For� a� better�
�understanding,� Figure� 24� shows� how� the� voltage� evolves�
�on� the� V� CC� capacitor� upon� startup.�
�http://onsemi.com�
�11�
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