FairchildFAN6920MR临界模式PFC电源解决方案
2011-08-23
作者:Fairchild公司
</a>PFC" title="PFC">PFC" title="PFC">PFC控制器和准谐振电流模式PWM控制器,提供了成本效益的设计和降低了外接元件. FAN6920MR具有谷低检测,绿色模式工作以及高/低火线电压超功率补偿,从而提高了电源系统的性能,主要用在笔记本电脑适配器,开架开关电源和电池充电器.本文介绍了FAN6920MR主要特性,方框图, 典型应用电路图, 设计案例最终电路图,材料清单和PCB布局考虑.
FAN6920MR: mWSaver™ Technology Integrated Critical-Mode PFC and Quasi-Resonant Current-Mode PWM Controller
Factor Correction (PFC) controller and quasi-resonant PWM controller. Integration provides cost-effective design and reduces external components.
For PFC, FAN6920MR uses a controlled on-time technique to provide a regulated DC output voltage and to perform natural power-factor correction. With an innovative THD optimizer, FAN6920MR can reduce input current distortion at zero-crossing duration to
improve THD performance.
For PWM, FAN6920MR provides several functions to enhance the power system performance: valley detection, green-mode operation, and high / low line over-power compensation. Protection functions include secondary-side open-loop and over-current with autorecovery protection; external auto-recovery triggering; adjustable over-temperature protection by RT pin; and external NTC resistor, internal over-temperature shutdown, VDD pin OVP, and DET pin over-voltage for output OVP, and brown-in / out for AC input voltage UVP.
The FAN6920MR controller is available in a 16-pin small-outline package (SOP).
FAN6920MR主要特性:
Integrated PFC and Flyback Controller
Critical-Mode PFC Controller
Zero-Current Detection for PFC Stage
Quasi-Resonant Operation for PWM Stage
Internal Minimum 5μs tOFF for QR PWM Stage
Internal 5ms Soft-Start for PWM
Brownout Protection
High / Low Line Over-Power Compensation
Auto-Recovery Over-Current Protection
Auto-Recovery Open-Loop Protection
Externally Auto-Recovery Triggering (RT Pin)
Adjustable Over-Temperature Protection
VDD Pin and Output Voltage OVP (Auto-Recovery)
Internal Over-Temperature Shutdown (140°C)
FAN6920MR应用:
AC/DC NB Adapters
Open-Frame SMPS
Battery Charger
图1.FAN6920MR方框图
图2.FAN6920MR典型应用电路图
图3.FAN6920MR设计案例最终电路图
图4. 设计案例布局考虑
设计案例材料清单:
详情请见:
http://www.fairchildsemi.com/ds/FA/FAN6920MR.pdf
和
http://www.fairchildsemi.com/an/AN/AN-6920MR.pdf
FAN6920MR: mWSaver™ Technology Integrated Critical-Mode PFC and Quasi-Resonant Current-Mode PWM Controller
Factor Correction (PFC) controller and quasi-resonant PWM controller. Integration provides cost-effective design and reduces external components.
For PFC, FAN6920MR uses a controlled on-time technique to provide a regulated DC output voltage and to perform natural power-factor correction. With an innovative THD optimizer, FAN6920MR can reduce input current distortion at zero-crossing duration to
improve THD performance.
For PWM, FAN6920MR provides several functions to enhance the power system performance: valley detection, green-mode operation, and high / low line over-power compensation. Protection functions include secondary-side open-loop and over-current with autorecovery protection; external auto-recovery triggering; adjustable over-temperature protection by RT pin; and external NTC resistor, internal over-temperature shutdown, VDD pin OVP, and DET pin over-voltage for output OVP, and brown-in / out for AC input voltage UVP.
The FAN6920MR controller is available in a 16-pin small-outline package (SOP).
FAN6920MR主要特性:
Integrated PFC and Flyback Controller
Critical-Mode PFC Controller
Zero-Current Detection for PFC Stage
Quasi-Resonant Operation for PWM Stage
Internal Minimum 5μs tOFF for QR PWM Stage
Internal 5ms Soft-Start for PWM
Brownout Protection
High / Low Line Over-Power Compensation
Auto-Recovery Over-Current Protection
Auto-Recovery Open-Loop Protection
Externally Auto-Recovery Triggering (RT Pin)
Adjustable Over-Temperature Protection
VDD Pin and Output Voltage OVP (Auto-Recovery)
Internal Over-Temperature Shutdown (140°C)
FAN6920MR应用:
AC/DC NB Adapters
Open-Frame SMPS
Battery Charger
图1.FAN6920MR方框图
图2.FAN6920MR典型应用电路图
图3.FAN6920MR设计案例最终电路图
图4. 设计案例布局考虑
设计案例材料清单:
详情请见:
http://www.fairchildsemi.com/ds/FA/FAN6920MR.pdf
和
http://www.fairchildsemi.com/an/AN/AN-6920MR.pdf
本站内容除特别声明的原创文章之外,转载内容只为传递更多信息,并不代表本网站赞同其观点。转载的所有的文章、图片、音/视频文件等资料的版权归版权所有权人所有。本站采用的非本站原创文章及图片等内容无法一一联系确认版权者。如涉及作品内容、版权和其它问题,请及时通过电子邮件或电话通知我们,以便迅速采取适当措施,避免给双方造成不必要的经济损失。联系电话:010-82306118;邮箱:aet@chinaaet.com。