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参数资料
| 型号: | CPC9909DB |
| 厂商: | IXYS Integrated Circuits Division |
| 文件页数: | 7/12页 |
| 文件大小: | 0K |
| 描述: | DEMO BOARD FOR CPC9909 |
| 应用说明: | CPC9909 Design Considerations |
| 标准包装: | 1 |
| 电流 - 输出 / 通道: | 350mA |
| 输出及类型: | 1,非隔离 |
| 特点: | 可调光 |
| 输入电压: | 90 ~ 265VAC |
| 已供物品: | 板 |
| 已用 IC / 零件: | CPC9909 |
| 其它名称: | CLA329 |
��
�
�V� CS� ?� high� ?�
�I� LED� +� 0.5� ?� I� L�
�V� CS� ?� high� ?�
�1.15� ?� I� LED�
�I� NTEGRATED� C� IRCUITS� D� IVISION�
�2.3� Input� Voltage� Regulator�
�The� CPC9909� has� an� internal� voltage� regulator� that�
�can� work� with� input� voltages� ranging� from� 12V� DC� to�
�550V� DC� .� When� a� DC� voltage� greater� than� 12V� is�
�applied� at� the� V� I� N� pin,� the� internal� voltage� regulator�
�regulates� the� voltage� down� to� a� typical� 7.8V.� The� V� DD�
�pin� is� the� internal� voltage� regulator� output� pin� and�
�must� be� bypassed� by� a� low-ESR� capacitor� to� provide�
�a� low� impedance� path� for� high� frequency� switching�
�noise.�
�The� CPC9909� driver� does� not� require� the� bulky�
�start-up� resistors� typically� needed� for� off-line�
�controllers.� The� internal� voltage� regulator� provides�
�sufficient� voltage� and� current� to� power� internal� IC�
�circuits.� This� voltage� is� also� available� at� the� V� DD� pin,�
�and� can� be� used� as� a� bias� voltage� for� external�
�circuitry.�
�The� internal� voltage� regulator� can� be� bypassed� by�
�applying� an� external� DC� voltage� to� the� V� DD� pin� that� is�
�slightly� higher� than� the� internally� generated� regulator�
�voltage.� This� reduces� the� power� dissipation� of� the�
�integrated� circuit,� and� it� is� more� suitable� in� isolated�
�applications� where� an� auxiliary� winding� can� be� used� to�
�drive� the� V� DD� pin.�
�The� total� input� current� drawn� from� the� V� I� N� pin� is� equal�
�to� the� quiescent� current� drawn� by� the� internal� circuitry�
�(which� is� specified� at� 0.6mA� maximum)� plus� the� gate�
�driver� current.� See� “Shut-Down� Mode� Supply� Current”�
���The� current� draw� of� the� gate� driver� depends� on� the�
�switching� frequency� and� the� gate� charge� of� the�
�external� power� MOSFET.� The� total� input� current� can�
�be� calculated� by:�
�I� IN� ?� 0.6� mA� +� ?� Q� GATE� ?� f� S� ?�
�Where� Q� GATE� is� the� total� gate� charge� of� the� MOSFET�
�and� f� S� is� the� oscillator� external� frequency.�
�2.4� Current� Sense� Resistor�
�The� peak� LED� current� is� set� by� an� external� sense�
�resistor� (R� SE� N� SE� )� connected� from� the� CS� pin� to�
�ground.�
�The� value� of� the� current� sense� resistor� is� calculated�
�based� on� the� average� LED� current� desired,� the� current�
�sense� threshold,� and� the� inductor� ripple� current.�
�CPC9909�
�The� peak-to-peak� difference� in� the� inductor� current�
�waveform� is� referred� to� as� inductor� ripple� current� (the�
�inductor� is� typically� selected� to� be� large� enough� to�
�keep� this� ripple� within� 30%� of� the� average).� Factor� in�
�the� ripple� current� when� calculating� the� sense� resistor.�
�The� current� sense� resistor� value� can� be� found� by:�
�R� SENSE� =� ----------------------------------�
�Where:�
�?� V� CS(high)� =� current� sense� threshold� =0.25V� (or� V� LD� )�
�?� I� LED� =� average� LED/inductor� current�
�?� ?� I� L� =� inductor� ripple� current� =� 0.3*I� LED�
�Combining� terms:�
�R� SENSE� =� ----------------------------�
�2.5� Current� Sense� Blanking�
�The� CPC9909� has� an� internal� current� sense� blanking�
�circuit.� When� the� power� MOSFET� is� turned� on,� the�
�external� inductor� can� cause� an� undesired� spike� at� the�
�current� sense� pin,� initiating� a� premature� termination� of�
�the� gate� pulse.� To� avoid� this� condition,� a� typical� 400ns�
�internal� leading� edge� blanking� time� is� implemented,�
�thereby� eliminating� the� need� for� external� RC� filtering,�
�and� simplifying� the� design.� During� the� current� sense�
�blanking� time,� the� current� limit� comparator� is� disabled,�
�preventing� the� gate-drive� circuit� from� terminating� the�
�gate-drive� signal.�
�2.6� Enable/Disable� Function�
�Connecting� the� PWMD� pin� to� V� DD� enables� the� gate�
�driver.� Connecting� PWMD� to� G� N� D� disables� the� gate�
�driver� and� sets� the� device� in� standby� mode.� In� standby�
�mode,� the� quiescent� current� is� 0.6mA� maximum.�
�2.7� Minimum� Off-Time� One-Shot�
�The� CPC9909� uses� a� fixed� off-time� control� scheme.�
�The� minimum� off-time� is� set� by� an� external� resistor�
�connected� between� the� RT� and� G� N� D� terminals.�
�The� off-time� can� be� determined� by:�
�t� off� ?� ?� s� ?� =� ?� ?� ?� R� T� ?� k� ?� ?� ?� ?� 66� ?� +� 0.8� ?�
�Off-time� selection� indirectly� determines� the� switching�
�frequency� of� the� LED� driver.�
�R04�
�www.ixysic.com�
�7�
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