Fairchild公司的FL7730是高度集成的PWM控制器,為單級反激轉(zhuǎn)換器提供增強(qiáng)的性能,其有所有權(quán)的TRUECURRENT™拓?fù)浜喕薒ED照明的電路設(shè)計(jì).應(yīng)用電壓80VAC ~ 308VAC,起動(dòng)電流20uA,工作電流5mA,采用跳頻有更好的EMI性能,主要用在LED照明系統(tǒng).本文介紹了FL7730主要特性,方框圖,典型應(yīng)用電路以及采用FL7730的TRIAC調(diào)光180V-265VAC和90-140VAC 的LED驅(qū)動(dòng)器參考設(shè)計(jì)電路圖.
FL7730MY: Single-Stage Primary-Side-Regulation PWM Controller for PFC and LED Dimmable Driving
This highly integrated PWM controller, FL7730MY, provides several features to enhance the performance of single-stage flyback converters. The proprietary topology, TRUECURRENT™, enables the simplified circuit design for LED lighting applications.
TRIAC dimming is smoothly managed by dimming brightness control without flicker. By using single-stage topology with primary-side regulation, an LED lighting board can be implemented with few external components and minimized cost. It does not require an input bulk capacitor or feedback circuitry. To implement good power factor and low total harmonic distortion, constant on-time control is utilized with an external capacitor connected to the COMI pin.
Precise constant-current control regulates accurate output current versus changes in input voltage and output voltage. The operating frequency is proportionally changed by the output voltage to guarantee Discontinuous Conduction Mode (DCM) operation with higher efficiency and simpler design. The FL7730MY provides protections such as open-LED, short-LED, and over-temperature protections. Current-limit level is automatically reduced to minimize output current and protect external components in a short-LED condition.
The FL7730MY frequency-hopping function in the oscillator improves EMI performance. The FL7730MY controller is available in an 8-pin SOP package.
FL7730主要特性:
? Compatible with Traditional TRIAC Control (No need to change existing lamp infrastructure: wall switch & wire)
? Compatible with Non-Dimming Lamp Designs
? Cost-Effective Solution without Input Bulk Capacitor and Feedback Circuitry
? Power Factor Correction (PFC)
? Accurate Constant-Current (CC) Control, Independent Online Voltage, Output Voltage,Magnetizing Inductance Variation
? Line Voltage Compensation for CC Control
? Linear Frequency Control for Better Efficiency and Simple Design
? Open-LED Protection
? Short-LED Protection
? Cycle-by-Cycle Current Limiting
? Over-Temperature Protection with Auto Restart
? Low Startup Current: 20μA
? Low Operating Current: 5mA
? Frequency Hopping for Better EMI Performance
? SOP-8 Package Available
? Application Voltage Range: 80VAC ~ 308VAC
FL7730應(yīng)用:
? LED Lighting System
圖1. FL7730方框圖
圖2. FL7730典型應(yīng)用電路圖
采用FL7730的TRIAC調(diào)光8.4W LED驅(qū)動(dòng)器參考設(shè)計(jì)
A LED has become a promising light source for replacing conventional lighting systems, such as fluorescent and incandescent lights. Especially in the conventional TRIAC dimmer infrastructure, there has been much research into development of an LED bulb compatible with TRIAC dimmers. Because the incandescent light source consumes a hundred watt with short life time, an LED bulb can be the excellent substitute with considerably less power dissipation and longer life.
The biggest recent issue of TRIAC dimmable LED bulb is dimmer compatibility. The conventional TRIAC dimmer was originally designed to handle hundreds of watts induced by incandescent bulbs. An LED bulb consuming less than 20W should interact with those dimmers composed of high-power devices. If the interaction between dimmer and LED bulb is not stabilized, visible flicker is perceptible.
To manage the interaction without flicker, some requirements for dimmer operation need to be considered.
TRIAC dimmer needs latching current at firing and holding current during TRIAC turn-on after firing. If those two currents are not met, TRIAC dimmer misfires and LED light flickers. The TRIAC dimmer blocks input line in the beginning of line cycle, then connects input line and LED bulb after firing. The TRIAC dimmer turns off if latching or holding current flowing through the dimmer is inadequate. The latching and holding currents are different from dimmer models. The typical range of latching and holding currents is around 5 ~ 50mA. Those operating requirement do not cause problems using incandescent bulbs due to high power consumption. An LED bulb with less than 20W output power cannot maintain this amount of current over the whole line cycle.
This application note provides a practical guideline of TRIAC dimmable LED bulb board design. Passive and active bleeder design guides detail how to maintain latching and holding current without visible flicker. Active damper design improves efficiency by minimizing the count of external components. The input filter design section covers the effect of filter components on PF, THD, and EMI.
The following user guide supports the demonstration kit for the FL7730.
TRIAC調(diào)光LED驅(qū)動(dòng)器參考設(shè)計(jì)主要特性:
??Compatible with traditional TRIAC control
??Cost effective solution without input bulk capacitor and feedback circuitry
??Line voltage compensation
??Linear frequency control for better efficiency and easy design
??Constant current regulation vs output voltage change (10~28V) : <+/- 3.1%
??Constant current regulation vs line voltage change (180~265Vac) : <+/- 1.9%
??Output open & short circuit protection with auto restart
??Flicker-free TRIAC dimming control
??System efficiency up to 84.5%
??PF and THD at nominal voltages (220 ~ 230Vac): PF(>0.92), THD(<18%)
??All components’ temperature (at room temp.): less than 55ºC
TRIAC調(diào)光LED驅(qū)動(dòng)器參考設(shè)計(jì)指標(biāo):
圖3.TRIAC調(diào)光LED驅(qū)動(dòng)器參考設(shè)計(jì)電路圖
圖4.TRIAC調(diào)光LED驅(qū)動(dòng)器參考設(shè)計(jì)變壓器框圖
圖5.TRIAC調(diào)光LED驅(qū)動(dòng)器參考設(shè)計(jì)電路圖(90-140VAC)
圖6.TRIAC調(diào)光LED驅(qū)動(dòng)器參考設(shè)計(jì)電路圖(90-140VAC)變壓器框圖
詳情請見:
http://www.fairchildsemi.com/ds/FL/FL7730.pdf
和
http://www.fairchildsemi.com/an/AN/AN-9745.pdf
以及
http://www.fairchildsemi.com/support/referencedesign/docs/RD-L020-2.pdf
