User Guide for FEBFL7730_L20L008A 8.4W LED Bulb Using FL7730 Featured Fairchild Product: FL7730 Direct questions or comments about this evaluation board to: "Worldwide Direct Support" Fairchild Semiconductor.com (c) 2012 Fairchild Semiconductor Corporation FEBFL7730_L20L008A * Rev. 0.0.4 Table of Contents 1. Introduction ............................................................................................................................... 3 1.1. General Description.......................................................................................................... 3 1.2. Features ............................................................................................................................ 3 1.3. Internal Block Diagram .................................................................................................... 4 2. General Specifications .............................................................................................................. 5 3. Photographs............................................................................................................................... 6 4. Printed Circuit Board ................................................................................................................ 7 5. Schematic .................................................................................................................................. 8 2.1 Bill of Materials ............................................................................................................... 9 2.2 Transformer and Winding Specifications ...................................................................... 10 6. Performance of Evaluation Board ........................................................................................... 11 6.1. 6.2. 6.3. 6.4. 6.5. 6.6. 6.7. 6.8. 6.9. Startup ............................................................................................................................ 11 Operation Waveforms .................................................................................................... 11 Constant Current Regulation .......................................................................................... 12 Open/Short-LED Protections ......................................................................................... 13 Dimming Operation........................................................................................................ 14 System Efficiency .......................................................................................................... 17 Power Factor and THD .................................................................................................. 17 Operating Temperature .................................................................................................. 18 EMI................................................................................................................................. 19 7. Revision History ..................................................................................................................... 20 (c) 2012 Fairchild Semiconductor Corporation 2 FEBFL7730_L20L008A * Rev. 0.0.4 This user guide supports the evaluation kit for the FL7730. It should be used in conjunction with the FL7730 datasheet as well as Fairchild's application notes and technical support team. Please visit Fairchild's website at www.fairchildsemi.com. 1. Introduction This document describes the proposed solution for low-line voltage LED ballast using the FL7730 PSR single-stage controller. The input voltage range is 90VRMS - 140VRMS and there is one DC output with a constant current of 380mA at 22VMAX. This document contains general description of FL7730, the power supply specification, schematic, bill of materials, and the typical operating characteristics. 1.1. General Description The FL7730 is an active Power Factor Correction (PFC) controller using single-stage flyback topology. Dimming control with no flicker is implemented by an analog sensing method. Primary-side regulation and single-stage topology reduce external components such as input bulk capacitor and feedback circuitry and minimize cost. To improve good power factor and Total Harmonic Distortion (THD), constant on-time control is utilized with internal error amplifier and a low-bandwidth compensator. Precise constant-current control regulates accurate output current, independent of input voltage and output voltage. Operating frequency is proportionally changed by output voltage to guarantee DCM operation with higher efficiency. FL7730 provides protections such as open-LED, short-LED, and over-temperature protection. 1.2. Features Compatible with Traditional TRIAC Control Cost-Effective Solution without Input Bulk Capacitor and Feedback Circuitry Power Factor Correction (PFC) Accurate Constant-Current (CC) Control Line Voltage Compensation for CC Control Linear Frequency Control for Better Efficiency and Simpler Design Open-LED Protection Short-LED Protection Cycle-by-Cycle Current Limiting Over-Temperature Protection with Auto Restart Low Startup Current: 20A Low Operating Current: 5mA Frequency Hopping for EMI VDD Under-Voltage Lockout (UVLO) Gate Output Maximum Voltage Clamped at 18V SOP-8 Package Available (c) 2012 Fairchild Semiconductor Corporation 3 FEBFL7730_L20L008A * Rev. 0.0.4 1.3. Internal Block Diagram Figure 1. (c) 2012 Fairchild Semiconductor Corporation Internal Block Diagram 4 FEBFL7730_L20L008A * Rev. 0.0.4 2. General Specifications All data in Table 1 was measured at an ambient temperature of 25C. Table 1. Summary of Features and Performance for LED Lighting Bulb Description Input Voltage Symbol Value VIN,MIN 90V Minimum Input Voltage VIN,MAX 140V Maximum Input Voltage VIN,NOMINAL Input Frequency Output Voltage Current Comments 110~120V Nominal Input Voltage fIN 60Hz Line Frequency VOUT,MIN 10V Minimum Output Voltage VOUT,MAX 28V Maximum Output Voltage VOUT,NOMINAL 22V Nominal Output Voltage IOUT,NOMINAL 380mA Nominal Output Current IOUT,RIPPLE 65mA Output Current Ripple <3.9% Line Input Voltage Change:90~140VAC <2.1% Output Voltage Change:10~28V CC Deviation Note : No Dimmer Connected Efficiency Eff90VAC 80.7% Efficiency at 90VAC Line Input Voltage Eff110VAC 82.2% Efficiency at 110VAC Line Input Voltage Eff120VAC 82.5% Efficiency at 120VAC Line Input Voltage Eff140VAC 82.9% Efficiency at 140VAC Line Input Voltage Note : No Dimmer Connected PF/THD PF/THD90VAC 0.98/7.4% PF/THD at 90VAC Line Input Voltage PF/THD110VAC 0.96/9.5% PF/THD at 110VAC Line Input Voltage PF/THD120VAC 0.95/10.4% PF/THD at 120VAC Line Input Voltage PF/THD140VAC 0.91/12.4% PF/THD at 140 VAC Line Input Voltage Note : Open-Frame Condition (TA=25C) Temperature (c) 2012 Fairchild Semiconductor Corporation TFL7730 50C FL7730 Temperature TMOSFET 53C Primary MOSFET Temperature TDIODE 47C Secondary Diode Temperature TTRANSFORMER 52C Transformer Temperature TDAMPER 57C Active Damper Temperature TSTR.RESISTOR 56C Startup Resistor Temperature 5 FEBFL7730_L20L008A * Rev. 0.0.4 3. Photographs Figure 2. Top View of Evaluation Board Figure 3. Bottom View of Evaluation Board Dimensions: 62.5mm (L) 26.8mm (W) 12.0 (H) Figure 4. Side View in Bulb Case Type 1 Figure 5. Bottom View in Bulb Case Type 1 Bulb Case Type 1 : 32mm (Case Diameter) 40mm (Case Depth) Figure 6. Side View in Bulb Case Type 2 Figure 7. Bottom View in Bulb Case Type 2 Bulb Case Type 2 : 34mm (Case Diameter) 44mm (Case Depth) (c) 2012 Fairchild Semiconductor Corporation 6 FEBFL7730_L20L008A * Rev. 0.0.4 4. Printed Circuit Board Figure 8. Figure 9. (c) 2012 Fairchild Semiconductor Corporation Printed PCB, Top Side Printed PCB, Bottom Side 7 FEBFL7730_L20L008A * Rev. 0.0.4 5. Schematic Figure 10. (c) 2012 Fairchild Semiconductor Corporation Schematic of Evaluation Board 8 FEBFL7730_L20L008A * Rev. 0.0.4 2.1 Bill of Materials Item Part No. Reference Part number Qty Description Manufacturer 1 Q1 MB8S 1 Bridge Diode Fairchild 2 Q2 FQN1N50C 1 1A/500V Active Damper MOSFET Fairchild 3 Q3 FL7730 1 Main Controller Fairchild 4 Q4 FQU5N60C 1 5A/600V Main Switch Fairchild 5 F1 SS-5-1A 1 1A/250V Fuse Bussmann 6 L1, L2 R06472KT00 2 4.7mH Filter Inductor Bosung 7 D1 ES1J 1 1A/600V Diode Fairchild 8 D2 1N5241 1 11V Zener Diode Fairchild 9 D3 1N4003 1 1A/200V Diode Fairchild 10 D4 RS1M 1 1A/1000V Diode Fairchild 11 D5 ES3D 1 3A/200V Fast Rectifier Fairchild 12 C1 MPE 400V334K 14S 1 334/400V Film Capacitor Sungho 13 C2 MPE 400V334K 14S 1 334/400V Film Capacitor Sungho 14 C3 C0805C104K3RACTU 1 104/25V SMD Capacitor 2012 Kemet 15 C4 C1206C335K3PACTU 1 335/25V SMD Capacitor 3216 Kemet 16 C5 C0805C100M3GACTU 1 10/25V SMD Capacitor 2012 Kemet 17 C6 C2012Y5V1E225Z 1 225/25V SMD Capacitor 2012 TDK 18 C7 KMG 47uF/35V 1 47F/35V Electrolytic Capacitor Samyoung 19 C8 C1206C103KDRACTU 1 103/1kV SMD Capacitor 3216 Kemet 20 C9 SCFz2E472M10BW 1 472/250V Y-Capacitor Samwha 21 C10 KMG 330F/35V 1 330F/35V Electrolytic Capacitor Samyoung 22 C11 RM 1000F/35V 1 1000F/35V Electrolytic Capacitor Samwha 23 R1 SR03700005600KR500 1 560/0.5W Metal Resistor Vishay 24 R2 RNF12JTD100R 1 100/0.5W Metal Resistor Stackpole Elec. 25 R3 RC1206JR-0720KL 1 20k SMD Resistor 3216 Yageo 26 R4 RC1206JR-071ML 1 1M SMD Resistor 3216 Yageo 27 R5 RC0805JR-0775KL 1 75k SMD Resistor 2012 Yageo 28 R6 RC0805JR-0762KL 1 62k SMD Resistor 2012 Yageo 29 R7 0 1 30 R8 RC0805JR-07150KL 1 150k SMD Resistor 2012 Yageo 31 R9 RC0805JR-0720KL 1 20k SMD Resistor 2012 Yageo 32 R10 RNF12GTD100K 1 100k/0.5W Metal Resistor Stackpole Elec. 33 R11, R12 RC1206JR-07510KL 2 510k SMD Resistor 3216 Yageo 34 R13 RC0805JR-0710RL 1 10 SMD Resistor 2012 Yageo 35 R14 RC1206JR-071R2L 1 1.2 SMD Resistor 3216 Yageo 36 R15 RC1206FR-071RL 1 1.0 SMD Resistor 3216 Yageo 37 R16 RC0805JR-07200RL 1 200 SMD Resistor 2012 Yageo 38 R17 RC1206JR-0751KL 1 51k SMD Resistor 3216 Yageo (c) 2012 Fairchild Semiconductor Corporation 9 FEBFL7730_L20L008A * Rev. 0.0.4 2.2 Transformer and Winding Specifications Figure 11. Transformer Specifications & Construction Figure 12. Table 2. Transformer Winding Structure Winding Specifications No. Winding Pin (S F) Wire Turns Winding Method 1 NP1 53 0.13 38 Ts Solenoid Winding 2 Insulation: Polyester Tape t = 0.025mm, 2 Layer 3 NS NS- NS+ NA 26 4 0.3 (TIW) 24 Ts Solenoid Winding Insulation: Polyester Tape t = 0.025mm, 2 Layer 5 6 0.13 18 Ts Solenoid Winding Insulation: Polyester Tape t = 0.025mm, 2 Layer 7 NP2 8 34 0.13 38 Ts Solenoid Winding Insulation : Polyester Tape t = 0.025mm, 6 Layer Table 3. Electrical Characteristics Pin Specification Remark Inductance 1- 2 1mH 10% 50kHz, 1V Leakage 1- 2 8H 50kHz, 1V Short All Output Pins (c) 2012 Fairchild Semiconductor Corporation 10 FEBFL7730_L20L008A * Rev. 0.0.4 6. Performance of Evaluation Board 6.1. Startup Startup time is 0.8s. There is no overshoot at output current and voltage in startup sequence (refer IOUT and VDD waveform. VDD indicates a reflected output voltage). Figure 13. 6.2. Startup - VIN [110VAC], C1 [VIN], C2 [VCS] C3 [VDD], C4,[IOUT], (No Dimmer Connected) Operation Waveforms In steady state, line compensation regulates output current regardless of input voltage variations. Output current ripple is 65mA with a rated output current of 380mA. VIN = 110VAC VIN = 90VAC VIN = 120VAC Figure 14. VIN = 140VAC Operation Waveforms - VO [22V], IO [380mA], C1 [VCS], C3, [VIN], C4 [IOUT] (c) 2012 Fairchild Semiconductor Corporation 11 FEBFL7730_L20L008A * Rev. 0.0.4 6.3. Constant Current Regulation Constant current deviation in the output voltage range from 10V to 28V is less than 2.1% at each line input voltage. Line regulation at the rated output voltage (22V) is less than 3.9%. 35 30 OVP 25 VOUT 20 [V] 90Vac 110Vac 120Vac 15 140Vac 10 5 0 0 100 200 300 400 500 Output Current [mA] Figure 15. Constant Current Regulation - Measured by E-Load [CR Mode] Table 4. Constant Current Regulation by Output Voltage Change (10~28V) Input Voltage Min. Current Max. Current Tolerance 90VAC / 60Hz 352mA 365mA 1.8% 110VAC / 60Hz 368mA 384mA 2.1% 120VAC / 60Hz 374mA 388mA 1.8% 140VAC / 60Hz 381mA 395mA 1.8% Table 5. Constant Current Regulation by Line Voltage Change (90~140VAC) Output Voltage 90VAC 110VAC 120VAC 140VAC Tolerance 20V 355mA 372mA 377mA 383mA 3.8% 22V 360mA 372mA 377mA 386mA 3.5% 24V 357mA 374mA 383mA 386mA 3.9% (c) 2012 Fairchild Semiconductor Corporation 12 FEBFL7730_L20L008A * Rev. 0.0.4 6.4. Open/Short-LED Protections In short-LED condition, the OCP level is reduced from 0.7V to 0.2V because the FL7730 lowers the OCP level when VS voltage is less than 0.4V during output diode conduction time. The output current in the short-LED condition is less than 1.5A, which doesn't damage any external components. Figure 16. Short-LED Condition - VIN [110VAC], C1 [VCS], C2 [VDD], C3 [VIN], C4 [IOUT] In open-LED condition, output voltage is limited around 32V by OVP in VDD. The output over-voltage protection level can be controlled by turn ratio of auxiliary and secondary windings. Figure 17. Open-LED Condition - VIN [110VAC], C1 [VCS], C2 [VDD], C3 [VIN] (c) 2012 Fairchild Semiconductor Corporation 13 FEBFL7730_L20L008A * Rev. 0.0.4 6.5. Dimming Operation Dimming operation waveforms are shown in Figure 18 - Figure 20. Active damper, RC bleeder, and dimming control in FL7730 implement flicker-free dimming operation. Spike current at dimmer firing is less than 1.2A. Figure 18. Dimming Operation Waveforms: Max. Dimming Angle, VIN [120VAC], C1 [VIN], C2 [VCS], C4 [IIN] Figure 19. Dimming Operation Waveforms : 90 Dimming Angle, VIN [120VAC] ,C1 [VIN], C2 [VCS], C4 [IIN] (c) 2012 Fairchild Semiconductor Corporation 14 FEBFL7730_L20L008A * Rev. 0.0.4 Figure 20. Dimming Operation Waveforms - Min. Dimming Angle, VIN [120VAC], C1 [VIN], C2 [VCS], C4 [IIN] Output current is controlled by dimming function when rotating dimmer switch as in the dimming curve in Figure 21. The dimming control block in FL7730 smoothly changes regulated output current by detecting dimming angle. Figure 21. Dimming Curve (Effective RMS Input Voltage vs. Output Current) - Line Voltage [120VAC] (c) 2012 Fairchild Semiconductor Corporation 15 FEBFL7730_L20L008A * Rev. 0.0.4 Table 6. TRIAC Dimmer Compatibility Manufacturer Dimmer Condition Maximum Current Minimum Current Flicker LUTRON S-600P-WH 120V / 60Hz 330mA 40mA (12.0%) No LUTRON CN-600P-WH 120V / 60Hz 328mA 11mA (3.4%) No LUTRON GL-600H 120V / 60Hz 365mA 8mA (2.2%) No LUTRON TG-603PGH-WH 120V / 60Hz 252mA 12mA (4.8%) No LUTRON TG-600PH-WH 120V / 60Hz 333mA 14mA (4.2%) No LUTRON LG-600P 120V / 60Hz 327mA 3mA (0.9%) No LUTRON CTCL-153PD 120V / 60Hz 320mA 58mA (18.0%) No LEVITON IP106 120V / 60Hz 380mA 36mA (9.5%) No LEVITON 1C4005 120V / 60Hz 344mA 0mA (0%) No LEVITON 6631-LW 120V / 60Hz 340mA 0mA (0%) No Legrand F 165H 120V / 60Hz 344mA 3mA (0.9%) No (c) 2012 Fairchild Semiconductor Corporation 16 FEBFL7730_L20L008A * Rev. 0.0.4 6.6. System Efficiency Power efficiency is 80.7 ~ 82.9% in 90 ~ 140VAC input voltage range. 90 88 86 84 Eff. [%] 82 80 78 76 74 72 70 90Vac 110Vac 120Vac 140Vac Input Voltage [V] Figure 22. Power Efficiency (Input Voltage vs. Efficiency) Table 7. System Efficiency Input Input Power Voltage 6.7. Output Current Output Voltage Output Power Efficiency 90VAC 9.68W 360mA 21.70V 7.81W 80.7% 110VAC 9.96W 376mA 21.77V 8.19W 82.2% 120VAC 10.02W 380mA 21.77V 8.27W 82.5% 140VAC 10.15W 386mA 21.79V 8.41W 82.9% Power Factor and THD FL7730 shows excellent power factor and THD performance. Power factor is very high with enough margins from 0.9. THD is much less than 30% specification. Table 8. Power Factor and THD Input Voltage Output Current Output Voltage PF THD 90VAC 360mA 21.70V 0.98 7.4% 110VAC 376mA 21.77V 0.96 9.5% 120VAC 380mA 21.77V 0.95 10.4% 140VAC 386mA 21.79V 0.91 12.4% (c) 2012 Fairchild Semiconductor Corporation 17 FEBFL7730_L20L008A * Rev. 0.0.4 6.8. Operating Temperature Temperature of the all components on this board is less than 60C. Figure 23. Figure 24. (c) 2012 Fairchild Semiconductor Corporation Board Temperature - Top View, VIN [120VAC], IO [380mA] Board Temperature - Bottom View, VIN [120VAC], IO [380mA] 18 FEBFL7730_L20L008A * Rev. 0.0.4 6.9. EMI The all measurement was conducted in observance of CISPR22 criteria. Figure 25. (c) 2012 Fairchild Semiconductor Corporation EMI Results - VIN [110V], VOUT [22V], IOUT [380mA] 19 FEBFL7730_L20L008A * Rev. 0.0.4 7. Revision History Rev. Date Description 0.0.1 FEB 23, 2012 Change User Guide number from FEB-L020-1 to FEBFL7730_L20L008A 0.0.2 FEB 24, 2012 Initial edit/format pass 0.0.3 FEB 28,2012 Initial edit (Part list, figure number) 0.0.4 MAR 8, 2012 BOM revision and minor error correction WARNING AND DISCLAIMER Replace components on the Evaluation Board only with those parts shown on the parts list (or Bill of Materials) in the Users' Guide. Contact an authorized Fairchild representative with any questions. 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