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User Guide for FEBFL103_L15U008A

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1. 3 Photographs Figure 2 View qasaq n oc 0201 i we 111 AI DW 4 85 RIOS Figure 3 Bottom View 2012 Fairchild Semiconductor Corporation 6 103 1150008 Rev 1 0 3 FAIRCHILD Ges SEMICONDUCTORS ww fairchilds mi om 4 Printed Circuit Board Figure 5 Printed PCB Bottom Side 2012 Fairchild Semiconductor Corporation 7 103 1150008 Rev 1 0 3 8 E 5 8 FAIRCHILD SEMICONDUCTOR Schematic 5 F1 250V 1A MB6S 600V 0 5A L101 1mH C101 10 10uF 400V 10uF 400V L102 Short R102 120K 3216 C103 4 7n 1kV D101 1N4007 R101 100K 3216 C104 D102 C105 10uF 50V 1 4007 47 2012 0101 103 2 60 10R 2012 R02 100R 2012 R107 2R2 3216 FL103 T101 D201 2 9 ES2D 200V 2A R201 24K 3216 C201 100uF 35V TRANSFORMER FLAT COMPACT 120K 2012 R106 R108 22K 2012 2R2 3216 Evaluation Board Schematic Figure 6 FEBFL103 L15U008A Rev 1 0 3 2012 Fairchild Semiconductor Corporation j FAIRCHILD NAA Eege ww fairdhiilds mi om SEMICONDUCTOR 6 Bill of Materials Part Qty 1 0101 FL103M 1 Controller SOP 8 ra Semiconductor Q101 FQU2N60C 1 600 V 2 MOSFET Fairchild T101 16145 Transformer Lm 1 13 mH L101 R08102KTO00 1 mH Filter In
2. FAIRCHILD a ww fairchiidsemi SEMICONDUCTOR User Guide for FEBFL103 L15U008A 8 4 W LED Driver at Universal Line Featured Fairchild Product FL103 Direct questions or comments about this evaluation board to Worldwide Direct Support Fairchild Semiconductor com 2012 Fairchild Semiconductor Corporation 103 1150008 Rev 1 0 3 ww fairchildsemi com M 5 FAIRCHILD L SEMICONDUCTORS Table of Contents L 15 3 3 euim ms 3 L2 Features WE 3 1 3 Internal Block Diagram S A _ 4 2 Specification for Evaluation Y suo 5 3 Photographs 6 4 Printed Circuit 7 5 Schemat 9 6 Bill off foie ni A RERO eese 9 7 NN C neen 10 9 4 11 8 1 Input Power at Minimum Load Condltion 12 O WD Ime IOS 13 OTi rrent eren 14 EG Ri
3. i i i Measure 1 P2 pkpk C2 P3min C3 P4 4 PS 1 P6 Measure 1 P2 pkpk C2 P3 min C3 4 4 5 1 6 value 443V 606 mA value 481 V 590 mA status status 0 92 9 2 f t SEI 10 TP f t Figure 34 230 Vac 50 Hz Normal Operation Figure 35 265 Vac 50 Hz Normal Operation 2012 Fairchild Semiconductor Corporation 18 103 1150008 Rev 1 0 3 eet FAIRCHILD Eege ww fairchilds mi gem SEMICONDUCTOR Figure 36 85 60 Hz Short Circuit Figure 37 110 Vac 60 Hz Short Circuit LeCroy Figure 38 230 Vac 50 Hz Short Circuit Figure 39 265 Vac 50 Hz Short Circuit LeCroy Fig Figure 42 230 Vac 50 Hz Power Off Figure 43 265 Vac 50 Hz Power Off 2012 Fairchild Semiconductor Corporation 19 103 1150008 Rev 1 0 3 FAIRCHILD yen yT cm ptt SEMICONDUCTOR ww fairch ildsemi com 8 7 Voltage amp Current Stress on Secondary Rectifier Test Condition Connect seven LEDs and measure the voltage and current stress on the secondary rectifier Yellow Green Table 11 Test Results T 65V 60M 110 Vae 60 He 230 Vac 150 Hz 268 Vae on i zea 224 zan _ mam LeCroy LeCroy Figure 44 85 Vac 60 Hz Power On LeCroy LeCroy Figure 46 230 Vac 50 Hz Power Figure 47 265 Vac 50
4. 2 Power On 2012 Fairchild Semiconductor Corporation 20 103 1150008 Rev 1 0 3 FAIRCHILD aa SEMICONDUCTOR i i 1 i i i i Measure P1 min C1 P2 pkpk C2 P3min C3 max C4 P5 freq F1 P6 Measure P1 min C1 P2pkpk C2 P3min C3 P4 max C4 P5 freq F1 6 58 V 242A 79V 2 39A Timebase i mg Trigger 500r 1 top 0 4 if Figure 48 85 Vac 60 Hz Normal Operation Figure 49 110 Vac 60 Hz Normal Operation I LeCroy 100 kS LeCroy Measure P1 min C1 P2 pkpk C2 P3 min C3 P4 max C4 P5freg F1 LEE Measure P1 min C1 P2 pkpk C2 P3 min C3 P4 max C4 P5 freq F1 P6 alue 136V 236A value 161 V 239A status status Figure 50 230 Vac 50 Hz Normal Operation Figure 51 265 Vac 50 Hz Normal LeCroy LeCroy Figure 52 85 Vac 60 Hz Short Circuit Figure 53 110 Vac 60 Hz Short Circuit LeCroy LeCroy Figure 54 230 Vac 50 Hz Short Circuit Figure 55 265 Vac 50 Hz Short Circuit 2012 Fairchild Semiconductor Corporation 21 103 1150008 Rev 1 0 3 FAIRCHILD BEE BH SEMICONDUCTOR Figure 56 85 Vac 60 Hz Power Figure 57 110 Vac 60 Hz Power LeCroy LeCroy d Figure 58 230 Vac 50 Hz Power Figure 59 265 Vac 50 Hz Power 2012
5. 50 7 RCD Max 50 8 Snubber 50 2 C 2nd Side Rectifier 59 2 C FL103M 45 9 C Transformer 50 7 C MOSFET 50 8 C FLIR Dist 0 5 Trefl 20 0 s 0 96 Figure 64 85 Vac 60 Hz Top Side Spot 49 0 C Box ee RCD Snubber Circle Vax 48 4 49 0 C Transformer 51 5 C MOSFET 48 4 C FLIR L Dist 0 5 Trefl 20 0 0 96 Figure 66 265 Vac 50 Hz Top Side 2012 Fairchild Semiconductor Corporation 27 FLIR Dist 0 5 Trefl 20 0 0 96 Figure 65 85 Vac 60 Hz Bottom Side Spot 39 5 Box Max 58 Current Sense Circle Resistors e 42 8 39 5 C 2nd Side Rectifier 58 9 C FLIR Dist 0 5 Trefl 20 0 0 96 FL103M 42 8 C Figure 67 265 Vac 50 Hz Bottom Side FEBFL103_L15U008A Rev 1 0 3 ee FAIRCHILD SEMICONDUCTOR ww fairchilds mi om 8 13 Electromagnetic Interference EMI Test Conditions Frequency Subrange 150 kHz 30 MHz Measuring OuasiPeak Average Load is 7 LEDs Table 18 Test Results 80 70 EN 55022 Voltage on Mains D e i i III ro n3 lt o IS D 3 lt O D gt lt e Level in dBuV e e 150k 300 400 500 800 1M 2M SM 4M 5M 6 8 10M 20M 30M Frequency in Hz Figure 68 Conduction Line 110 Vac 60 Hz 80 70 60 EN 55022 Voltage on Ma
6. Corporation 10 FEBFL103_L15U008A Rev 1 0 3 ge FAIRCHILD L SEMICONDUCTORS Com 8 Performance Evaluation Board Table 4 Test Conditions amp Test Equipment Test Temperature Ta 25 C AC Power Source ES2000S by PSTATIONES Power Analyzer DZ4000 by YOKOGAWA Electronic Load PLZ303WH by KIKUSUI Automatic Power Tester ATS3000 by BOB Multimeter 2002 by KEITHLEY Oscilloscope 104Xi by LeCroy EMI Test Receiver ESCS30 by ROHDE amp SCHWARZ Two Line V Network ENV216 by ROHDE amp SCHWARZ Thermometer Therma CAM SC640 by FLIR SYSTEMS LED EHP AX08EL GTO1H PO3 W by Everlight Test Equipments 2012 Fairchild Semiconductor Corporation 11 103 1150008 Rev 1 0 3 FAIRCHILD SEMICONDUCTORS ww fairchilds mi om 8 1 Input Power at Minimum Load Condition Test Condition Measure the input power and output voltage at open load Yellow Red Table 5 Test Results Input Voltage Input Power Output Voltage Remark 110 Vac 60 Hz 0 094 W 26 63 V 230 Vac 50 Hz 0 101 W 26 64 V 265 Vac 50 Hz 0 091 W 26 27 V Uer 310 0 V ofst Figure8 85 Vac 60 Hz LeCroy LeCroy 1 00 Stop 206 10 k 1OMSisfEdge Negative LeCroy LeCroy i i m el cy x B 10 0 9 20 V offset Trigger QM 20 0 Stop 382 382 Po
7. EDs Ripple and noise are measured by using 20 MHz bandwidth limited oscilloscope with a 10 uF 50 V capacitor paralleled with high frequency 0 1 uF capacitor across each output Red Vo Green Io Table 8 Test Result Input Voltage Ripple Source Voltage Ripple Current Ripple 85 Vac 60 Hz 110 Vac 60 2 230 Vac 50 Hz 265 50 Hz 2012 Fairchild Semiconductor Corporation 15 103 1150008 Rev 1 0 3 FAIRCHILD Gea Ser SEMICONDUCTOR ww fairchilds mi om LeCroy LeCroy k J B P2 pkpkiC2 P3min C3 4 freq F1 P6 P2 pkpk C2 3 2 P4 4 1 P6 218 mA 211 mA Figure 21 110 Vac 60 Hz LeCroy LeCroy an ai r a Pi Men PR PR nn na ene ______ B B P1 min C1 2 2 P3min C3 P4 pkpk C4 P5freq F1 P1 min C1 P2 pkpk C2 P3min C3 pkpk C4 P5freq F1 P6 211 27 mA 205 mV 29 mA LeCroy LeCroy ns rr een Bees Menen sr a Eees ais i II aa ai B P2 pkpk C2 P3min C3 P4 pkpk C4 P5 treq F1 P6 P2pkpk C 2 P3min C3 P4 pkpk C4 P5 treq F1 224 30 mA 198 27 mA Figure 23 265 Vac 50 Hz 8 5 Short Circuit Protection SCP Test Condition Connect seven LEDs and measure input power on short circuit in Hiccup Mode operation Yellow Vps Red Vpp Green Vo Table 9 Test Res
8. Fairchild Semiconductor Corporation 22 103 1150008 Rev 1 0 3 SSS Ss FAIRCHILD ae ww fairchiilds mi gem SEMICONDUCTOR 8 8 Constant Current Tolerance Using Electric Load CR Test Condition Aging five seconds at minimum load and measure the output current and output voltage Load is CR mode of electric load Table 12 Test Results SC DU ee Vo V 85Vac 60Hz 110Vac 60Hz 230Vac 50Hz 265 Vac S0Hz lo A Figure 60 CC CV Curve 2012 Fairchild Semiconductor Corporation 23 103 1150008 Rev 1 0 3 SSS Ss FAIRCHILD ae ww fairchiilds mi gem SEMICONDUCTOR 8 9 Constant Current Tolerance Using Electric Load CV Test Condition Fixed output voltage and variable input voltage Measure output current Load is CV mode of electric load Table 13 Deviation by Input Voltage Max Current Tolerance _ li Vc 22 5V VO 22 0V Vo 21 5V Vo 21 0V lol mA Vo 20 5V gt Vo 20 0V Vo 19 5V 19 0 Vo 18 5V Vo 18 0V ViN VAc Figure61 Deviation Curve 2012 Fairchild Semiconductor Corporation 24 103 1150008 Rev 1 0 3 m FAIRCHILD D SEMICONDUCTOR ALT LE HIR 1 8 10 Constant Current Toleration Using LED Load Test Condition Age five minut
9. Hz Frequency Hopping to Solve EMI Problems Peak Current Mode Control in CV Mode Cycle by Cycle Current Limiting Vpp Over Voltage Protection OVP Vpp Under Voltage Lockout UVLO Adjustable Brownout Detector Gate Output Maximum Voltage Clamped at 15 V Thermal Shutdown TSD Protection Available in the 8 Lead SOIC Package 2012 Fairchild Semiconductor Corporation 3 FEBFL103_L15U008A Rev 1 0 3 FAIRCHILD SaaS ww fairchiilds mi gam SEMICONDUCTOR 1 3 Internal Block Diagram Auto Recovery Soft ES Driver Max Duty Peak Detector VreseT Slope Compensation OVP Over Voltage Protection UVLO Under Voltage Lockout TSD Thermal Shutdown Protection Protection Pattern Generator Sampling amp Holder GND Figure 1 Block Diagram 2012 Fairchild Semiconductor Corporation 4 103 1150008 Rev 1 0 3 ea al FAIRCHILD a ww fairchildsemi com SEMICONDUCTOR 2 Specification for Evaluation Board Table 1 Evaluation Board Specifications for LED Lighting Bulb Main Controller FL103M VoltageRange Range 85 Vac 265 Vac Power 6 All data of the evaluation board were measured under a condition where the board was enclosed in a case and external temperature was around 25 C 2012 Fairchild Semiconductor Corporation 5 FEBFL103_L15U008A Rev 1 0 3 F FAIRCHILD hae SEMICONDUCTORS
10. ITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR CORPORATION As used herein 1 Life support devices or systems are devices or systems which a 2 A critical component is any component of a life support device or are intended for surgical implant into the body or b support or system whose failure to perform can be reasonably expected to sustain life or whose failure to perform when properly used in cause the failure of the life support device or system or to affect its accordance with instructions for use provided in the labeling can be safety or effectiveness reasonably expected to result in significant injury to the user ANTI COUNTERFEITING POLICY Fairchild Semiconductor Corporation s Anti Counterfeiting Policy Fairchild s Anti Counterfeiting Policy is also stated on our external website www fairchildsemi com under Sales Support Counterfeiting of semiconductor parts is a growing problem in the industry All manufacturers of semiconductor products are experiencing counterfeiting of their parts Customers who inadvertently purchase counterfeit parts experience many problems such as loss of brand reputation substandard performance failed applications and increased cost of production and manufacturing delays Fairchild is taking strong measures to protect ourselves and our customers from the proliferation of counterfeit parts Fairchild strongly
11. ductor 8 7 BD101 MB6S 1 600 V 0 5 A Bridge Rectifier SOIC 4 ducts Semiconductor D101 D102 1N4007 2 1 kV 1 A Rectifier 00 41 Semiconductor D201 ES2D 1 200V 2A Fast Rectifier SMB DO 214AA MO Semiconductor 100 pF 35 V Ultra Low Impedance R101 RC1206JR 07100KL 100 kO SMD Resistor 3216 R102 RC1206JR 07120KL 120 kO SMD Resistor 3216 R103 RC0805JR 0710RL 10 Q SMD Resistor 2012 R104 RC0805JR 07100RL 100 O SMD Resistor 2012 R105 RC0805JR 07120KL 120 kO SMD Resistor 2012 R106 RC0805JR 0722KL 22 kO SMD Resistor 2012 R107 R108 RC1206JR 072R2L 2 2 O SMD Resistor 3216 R201 RC1206JR 0724KL 24 kO SMD Resistor 3216 2012 Fairchild Semiconductor Corporation 9 103 L15UO008A Rev 1 0 3 SR M 5 FAIRCHILD L SEMICONDUCTOR ww fairchildsemi com cat 7 Transformer Design Core EE1614S PC 40 Bobbin 10 Pins d LA ah 3 4 10 3 Ns 2 0 139 1 0 32 1 27T 39T 5 7 Primary Secondary Figure 7 Transformer Specifications amp Construction Table 2 Winding Specifications BER Insulation zn EE Bee t 0 0 mm 3 Layer 38 Ns 1027 0320 TEX Solenoid Winding Insulation Polyester Tape t 0 05 mm 3 Layer Insulation Polyester Tape t 0 05 mm 3 Layer EN Outer Insulation Polyester Tape t 0 05 mm 3 Layer Table 3 Electrical Characteristics 2012 Fairchild Semiconductor
12. encourages customers to purchase Fairchild parts either directly from Fairchild or from Authorized Fairchild Distributors who are listed by country on our web page cited above Products customers buy either from Fairchild directly or from Authorized Fairchild Distributors are genuine parts have full traceability meet Fairchild s quality standards for handling and storage and provide access to Fairchild s full range of up to date technical and product information Fairchild and our Authorized Distributors will stand behind all warranties and will appropriately address any warranty issues that may arise Fairchild will not provide any warranty coverage or other assistance for parts bought from Unauthorized Sources Fairchild is committed to combat this global problem and encourage our customers to do their part in stopping this practice by buying direct or from authorized distributors EXPORT COMPLIANCE STATEMENT These commodities technology or software were exported from the United States in accordance with the Export Administration Regulations for the ultimate destination listed on the commercial invoice Diversion contrary to U S law is prohibited U S origin products and products made with U S origin technology are subject to U S Re export laws In the event of re export the user will be responsible to ensure the appropriate U S export regulations are followed 2012 Fairchild Semiconductor Corporation 30 FEBFL103_L15U008A Rev 1 0 3
13. es at 85 V4c and measure the output current and output voltage Load is LED Table 14 Deviation by Input Voltage LEDs Minimum Current Maximum Current Tolerance Remark 7 LED 343 mA 347 mA 1 27 6 LED 343 mA 348 mA 1 52 lt 10 5 LED 342 mA 349 mA 2 01 1 06 Table 15 Deviation by All Conditions LEDs amp Input Voltage lo mA Figure 62 Deviation Curve 2012 Fairchild Semiconductor Corporation 25 FEBFL103_L15U008A Rev 1 0 3 FAIRCHILD EEN d SEMICONDUCTOR 8 11 Efficiency Test Condition Connect seven LEDs and measure the input and output power after 30 minutes aging Table 16 Test Results Efficiency 110Vac 230Vac Vum Figure 63 Efficiency Curve 2012 Fairchild Semiconductor Corporation 26 103 1150008 Rev 1 0 3 FAIRCHILD UNAM oe ini SEMICONDUCTOR gt 8 12 Operating Temperature Test Condition Connect seven LEDs and measure the saturated temperature Table 17 Test Results marcanna MOSFET 48 4 C Top Side Circle Transformer 51 5 C RCD Snubber 49 0 C FL103M 42 8 C Secondary Rectifier 58 9 C Top Side Box Bottom Side Spot Top Side Box Top Side Spot Bottom Side Circle Current Sense Resistors Temperature Photos Spot 39 9 C Current Sense Resistors Max 45 9 39 9 C Spot 50 2 Box Max
14. ins 50 bes A EN 55022 Voltage on Mains AV 40 Level in dBHV 30 20 150k 300 400 500 800 1M 2M SM 4M 5M 6 8 10M 20M 30M Frequency in Hz Figure 69 Conduction Neutral 110 Vac 60 Hz 2012 Fairchild Semiconductor Corporation 28 103 1150008 Rev 1 0 3 FAIRCHILD Weeer elt AH SEMICONDUCTOR 60 EN 55022 Voltage on Mains Level dBu V 150k 300 400 500 8001 2 SM 4M 5M 6 8 10M 20M 30M Frequency in Hz Figure 70 Conduction Line 220 Vac 60 Hz 80 70 60 EN 55022 Voltage on Mains EN 55022 Voltage on Mains AV 50 Tom i lt 40 Level in dBHV 30 20 150k 300 400 500 800 1M 2M SM 4M 5M 6 8 10M 20M Frequency Hz Figure 71 Conduction Neutral 220 Vac 60 Hz 2012 Fairchild Semiconductor Corporation 29 103 1150008 Rev 1 0 3 Ni uc FAIRCHILD P Kwa y ww fairchilds mi om SEMICONDUCTOR bos 9 Revision History Dae Desorption June 2011 Initial Release July 2011 Reduced PCB Type amp Size Square Bulb 62 x 41 gt 53 x 25 May 2012 Update Block Diagram amp 103 Oct 2012 Modified edited formatted document Changed User Guide number from a FEB L015 103 1150008 WARNING AND DISCLAIMER Replace components on the Evaluation Board only with those parts shown on the parts l
15. ist or Bill of Materials in the Users Guide Contact an authorized Fairchild representative with any questions This board is intended to be used by certified professionals in a lab environment following proper safety procedures Use at your own risk The Evaluation board or kit is for demonstration purposes only and neither the Board nor this User s Guide constitute a sales contract or create any kind of warranty whether express or implied as to the applications or products involved Fairchild warrantees that its products meet Fairchild s published specifications but does not guarantee that its products work in any specific application Fairchild reserves the right to make changes without notice to any products described herein to improve reliability function or design Either the applicable sales contract signed by Fairchild and Buyer or if no contract exists Fairchild s standard Terms and Conditions on the back of Fairchild invoices govern the terms of sale of the products described herein DISCLAIMER FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY FUNCTION OR DESIGN FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS NOR THE RIGHTS OF OTHERS LIFE SUPPORT POLICY FAIRCHILD S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CR
16. n for an universal input 8 4 W LED ballast using the FL103M Primary Side Regulator PSR controller and the FOU2N60C QFET The input voltage range is 85 Vrms 265 Vrms and there is one DC output with a constant current of 350 mA at 24V This document contains a general description of FL103M the power supply specification schematic bill of materials and the typical operating characteristics 1 1 Description This third generation Primary Side Regulation PSR and highly integrated PWM controller provides features to enhance the performance of LED illumination The proprietary topology TRUECURRENT enables precise CC regulation and simplified circuit design for LED illumination applications The result is lower cost and smaller LED lighting compared to a conventional design or a linear transformer To minimize standby power consumption the proprietary Green Mode provides off time modulation to linearly decrease PWM frequency under light load conditions Green Mode assists the power supply in meeting the power conservation requirements By using FLI03 LED illumination can be implemented with few external components and minimized cost 1 2 Features Low Standby Power lt 30 mW High Voltage Startup Few External Components Constant Voltage CV and Constant Current CC Control without Secondary Feedback Circuitry Green Mode Linearly Decreasing PWM Frequency Fixed PWM Frequency at 50 kHz and 33 k
17. pple amp Noise __ 15 Protection at mmmn W 16 ide amp Current Stress __ 17 8 7 Voltage amp Current Stress on Secondary Rectifier 20 8 8 Constant Current Tolerance Using Electric Load CR 23 8 9 Constant Current Tolerance Using Electric Load CV 24 8 10 Constant Current Toleration Using LED Load eese 23 EC CV A 26 Temperature aw Y 27 C et nette Interference 28 9 R 30 2012 Fairchild Semiconductor Corporation 2 FEBFL103_L15U008A Rev 1 0 3 M 5 FAIRCHILD L SEMICONDUCTOR ww fairchildsemi com This user guide supports the evaluation kit for the FL103M It should be used in conjunction with the FL103M 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 solutio
18. sitive Figure 10 230 Vac 50 Hz 2012 Fairchild Semiconductor Corporation 12 103 1150008 Rev 1 0 3 FAIRCHILD Deeg Mb WIU a SEMICONDUCTORS LeCroy LeCroy Ale sss EE 0 ms div 434 100 kS II I Figure 11 265 Vac 50H 8 2 Startup Time Test Condition Connect seven LEDs and measure the time interval between AC plug in and stable output Yellow Vps Blue Vo Green Io Table 6 Test Results Figure 12 85 Vac 60 Hz Figure 13 110 60 Hz LeCroy LeCroy 5555 I 1 I Figure 14 230 50 Hz Figure 15 265 Vac 50 Hz 2012 Fairchild Semiconductor Corporation 13 103 1150008 Rev 1 0 3 ee FAIRCHILD Ee ww fairchlldsemi gem SEMICONDUCTORS 8 3 Input Current Test Condition Connect seven LEDs and measure the AC input current Yellow Vps Red Vpp Green Io Table 7 Test Result LeCroy LeCroy Figure 16 85 Vac 60 Hz LeCroy LeCroy 9 90 V offset ms div Stop 400v 153 Positive Figure 18 230 Vac 50H 2012 Fairchild Semiconductor Corporation 14 103 1150008 Rev 1 0 3 FAIRCHILD EE ii SEMICONDUCTOR Soma Trigger 5 00 Stop 456 10 0 Vidi 20 5 5 itive 9 90 V offset Figure 19 265 Vac 50H 8 4 Output Ripple amp Noise Test Condition Connect seven L
19. ults Input Voltage Input Power at SCP 110 Vac 60 Hz 0 180 W 230 Vac 50 Hz 0 426 W 265 Vac 50 Hz 2012 Fairchild Semiconductor Corporation 16 103 1150008 Rev 1 0 3 FAIRCHILD L SEMICONDUCTOR ww fairchildsemi com Figure 24 230 Vac 60 Hz Figure 25 110 60 Hz LeCroy LeCroy 10 0 Vidh 10 30 V ofst Figure 26 230 50 Hz Figure 27 265 Vac 50 Hz 8 6 Voltage amp Current Stress on MOSFET Test Condition Connect seven LEDs and measure the voltage and current stress on the MOSFET Yellow Green Ip Table10 Test Results ier 0 He 280 Vac 150 He 288 c 90 on I sem Sm mn _ mn mm mm mm _ mm 137 V 137 V 152 V 152 V Off 580 mA 580 mA 580 mA 580 mA 2012 Fairchild Semiconductor Corporation 17 103 1150008 Rev 1 0 3 FAIRCHILD Eege ww fairchiilds mi gem SEMICONDUCTOR A 400 A Figure 30 230 Vac 50 Hz Power On Figure 31 265 Vac 50 Hz Power On LeCroy LeCroy I i B Measure mawC1 P2pkpk C2 P3min C3 max C4 P5freq F1 Measure mawC1 2 2 P3min C3 max C4 P5freg F1 P6 value 221 606 value 257 V 590 MA status status 0 naq P siti Figure 32 85 Vac 60 Hz Normal Operation Figure 33 110 Vac 60 Hz Normal Operation LeCroy LeCroy i i i

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