SI-EPF006660WW

SPECIFICATION No. DATE OF ISSUE 2014. 06. 30 REV.NO. LED Driver 01 SPECIFICATION Model : SI-EPF006660WW CUSTOMER : CHECKED APPROVED 20 . . . 20 . . . SAMSUNG DRAWN 20 . . . CHECKED SALES QA 20 . . . 20 . . . APPROVED 20 . . . SAMSUNG ELECTRONICS CO,. LTD. SAMSUNG #2, NONGSEO-DONG, GIHEUNG-GU, YONGIN-CITY, GYEONGGI-DO, KOREA, 446-711 PAGE 1 /16 SPECIFICATION No. DATE OF ISSUE 2014. 06. 30 REV.NO. LED Driver 01 PAGE 2 /16 REVISION OF SPECIFICATION 01 00 SYMBOL REV Modify the item 1.4,2,2,9 The First Specification established. REVISION PAGE 2014.06.30 SK.Choi CH.Back 2014.05.26 SK.Choi CH.Back DATE TRACED APPRO. SPECIFICATION No. DATE OF ISSUE LED Driver 2014. 06. 30 REV.NO. 01 PAGE 3 /16 TABLE OF CONTENTS 1. AC 1.1. 1.2. 1.3. 1.4. 1.5. 1.6. 1.7. 1.8. Input Characteristics Input Voltage Input Frequency Input Current Range Switching Inrush Current Power Factor THD(Total Harmonic Power Saving .......................................................................................... .......................................................................................... .......................................................................................... .......................................................................................... .......................................................................................... .......................................................................................... .......................................................................................... Distortion) ..................................................................... .......................................................................................... 4page 4page 4page 4page 4page 4page 5page 5page 5page 2. DC 2.1. 2.2. 2.3. 2.4. Output Characteristics ...................................................................................... Output Voltage and Output Current ................................................................. Turn-On Delay Time ...................................................................................... Efficiency ........................................................................................................... Dimming ........................................................................................................... 6page 6page 7page 7page 8page 3. Protection Requirements ...................................................................................... 3.1. Short Circuit Protection ...................................................................................... 3.2. OVP Protection ................................................................................................. 8page 8page 8page 4. Environmental (Temperature and Humidity) ....................................................... 4.1. Operating ............................................................................................................ 4.2. Shipping / Storage ................................................................................................. 9page 9page 9page 5. Isolation (High Potential Testing) ............................................................................ 5.1. Dielectric Strength (HI-POT) ............................................................................ 5.2. Insulation Resistance ....................................................................................... 5.3. Leakage current ................................................................................................. 5.4. Earth continuity (IEC61347) ............................................................................ 10page 10page 11page 11page 12page 6. Safety & Requirements.................................................................................................. 6.1. Safety ....................................................................................................................... 6.2. EMI ....................................................................................................................... 6.3. Surge ....................................................................................................................... 6.4. ESD(Electrostatic Discharges) (EN 61547) (CLASS B) ................................... 12page 12page 12page 12page 13page 7. Reliability ....................................................................................................................... 13page 8. Outline Dimensions: .................................................................................................. 14page 9. Label Drawing: ............................................................................................................. 15page 10. PACKING SPECIFICATION ....................................................................................... 15page 11. Appendix A 16page ............................................................................................................. SPECIFICATION No. DATE OF ISSUE 2014. 06. 30 REV.NO. LED Driver PAGE 01 4 /16 1. AC Input Characteristics 1.1. Input Voltage The PSU is capable of supplying full rated output power over the input range of 108 to 305VAC RMS. It nominal voltages are 120 and 277VAC. The PSU is capable of start-up (power-on) at 108VAC and 47 Hz minimum Condition Minimum Maximum Units Nominal Variable 120 108 277 305 Vrms Vrms 1.2. Input Frequency The PSU operates with an input frequency range of 47 – 63Hz. Condition Minimum Maximum Units Nominal 50 60 Hz Variable 47 63 Hz 1.3. Input Current Maximum steady state input current is 0.59A (Max.) @120Vac. Input Voltage 120Vac/60Hz Maximum 0.59A Units Amps(RMS) 1.4. Range Switching The PSU can accept 120Vac to 277Vac full input range. No range switching is necessary or possible. 1.5. Inrush Current The cold or hot start inrush current should less than 20A and not cause the fuse open or component damaged. (The Time duration at 50% of Ipeak is 300usec.) SPECIFICATION No. DATE OF ISSUE 2014. 06. 30 REV.NO. LED Driver 01 PAGE 5 /16 1.6. Power Factor Power factor must higher than 0.9 @ 120-277Vac with the output current greater than 57% of rated current and the total output power higher than half load conditions. Parameter Symbol Specifications Condition Units min. typ. max. 0.9 - 1.00 Input = 120-277Vac Vout = 20-50V Power Factor PF Iout = 0.797-1.4A Po>25W 1.7. THD (Total Harmonic Distortion) THD must lower than 20% @ 120-277Vac with the output current greater than 57% of rated current and the total output power higher than half load conditions. Parameter Symbol Specifications Condition Units min. typ. max. - - 20 Input = 120-277Vac Vout = 20-50V THD TH Iout = 0.797-1.4A Po>25W 1.8. Power Saving The stand-by power should less than 1W. (Dimming Voltage < 1V Condition.) % SPECIFICATION No. DATE OF ISSUE 2014. 06. 30 REV.NO. LED Driver 01 PAGE 6 /16 2. DC Output Characteristics 2.1. Output Voltage and Output Current The output current can be adjusted by the Rset resistor. This item is tested under LED mode of E-load and the Rd coefficient should setting at 0.21. The output condition is as following curve. The tolerance of output voltage should be within ±2% of setting value and output current should be within ±5% of rated current. The full load condition are 35V/1.4A(max current) and 50V/1A(max voltage). The output current adjusted method is following below: 1. Disconnected Rset resistor to set full load at 35V/1.4A condition. 2. Connected the Rset resistor value to adjust the output current*. The Rset resistor connected to 6.2KOhm, the output is setting to full load at 50V/1A condition. * The Rset value is referring to Appendix A. Rset curve 60 1.4 50 1.2 40 1.0 0.8 30 0.6 20 0.4 10 0.2 0.0 Output Voltage (V) Constant Current (A) 1.6 Iout Vout 0 1K 2K 3.9K 6.2K 9. 1K 15K 30K 82K Rset (Ohm) The output Voltage range is referring from following form : Parameter Condition Minimum Normal Maximum Units Output Voltage Io= 0.5 ~ 1.4A 20 - 50 Volts 10 - 50 Watts MAX Power Io= 0.5 ~ 1.4A Vo=20 ~ 50V SPECIFICATION No. DATE OF ISSUE LED Driver 2014. 06. 30 REV.NO. PAGE 01 7 /16 * The output voltage is limited by max output power. The output current is 1.4A, the output voltage is 35V MAX. When the output current is down to 1A in using Rset to set, the output voltage is up to 50V MAX. The detail value is referring from Appendix A. The Output Watt coverage is referring from following: 2.2. Turn-On Delay Time DC output turn-on delay time should less than 1 second at 108Vac input at typical load condition (35V/1.4A) The turn-on delay time is measured from “AC turn on” to “output reach 95% of rated current”. 2.3. Efficiency The efficiency should greater than 83% at output condition 35V/1.4A and 50V/1A under 120V/60Hz. (The PSU should warm up under full load condition at least 30 minutes). SPECIFICATION No. DATE OF ISSUE 2014. 06. 30 REV.NO. LED Driver PAGE 01 8 /16 2.4. Dimming The PSU has AD dimming function. It must be used with DC 0~10V. Dimming Curve is as below: (The current of LED module is 1.043A ± 5% at full load condition.) AD VS. Iout 1.2 1 0.8 t u o I 0.6 Iout 0.4 0.2 0 0.0 0 1. 0 2. 3.0 0 4. 0 5. AD 6.0 0 7. 0 8. 0 9. .0 10 3. Protection Requirements 1.1. Short Circuit Protection The PSU should be protected when the output short and do not result in a fire hazard, shock hazard, or damage to the PSU. The protection is auto-recovery mode. The test procedure is setup at LED mode and short V+ to GND, after the fault condition removed, the PSU should be auto-recovery and works normally. 1.2. OVP Protection When No Load Condition occurs, the PSU should Clamp output voltage at the OVP Voltage and not to damage the PSU. The OVP Voltage can adjust by Rset. After the Load is switch on, the PSU should be works normally. The OVP Voltage can adjust by Rset. OVP Voltage is referring from following curve. * The Rset value is referring to Appendix A. SPECIFICATION No. DATE OF ISSUE LED Driver 2014. 06. 30 REV.NO. PAGE 01 OVP Protection Curve Over Voltage Point (V) 60 50 40 30 20 10 0 1K 1.5K 2K 2.7K 3.9K 4.7K 6.2K 7.5K 9.1K 11K 15K 22K 30K 43K 82K Rset (Ohm) 4. Environmental (Temperature and Humidity) 4.1. Operating Temperature Relative Humidity Altitude The PSU shall operate from -20°C to 50°C. 10% to 90% relative humidity. 2,000 feet above sea level or 10,000 feet above sea level with a 32°C maximum ambient air temperature. 4.2. Shipping / Storage Temperature RelativeHumidity Altitude The PSU can be storage from ambient -25°C to 80°C. 20% to 90% relative humidity. 20,000 feet above sea level. 9 /16 SPECIFICATION No. DATE OF ISSUE 2014. 06. 30 REV.NO. LED Driver 01 PAGE 10 /16 5. Isolation (High Potential Testing) 5.1. Dielectric Strength (HI-POT) One hundred percent (100%) of PSU shall comply with the minimum production line Hi-Pot (High Potential) test as noted below. The test shall be applied between the L/N (AC Line and Neutral) to Output Terminal (Vout and RTN). (HIPOT Tester should turn off the “ARC FAIL” Condition.) Parameters Voltage Trip Current Sensitivity Voltage Ramp Time Dwell Time Breakdown Arc Detection Setting 3750 Vac minimum 10 milli-amperes maximum 500 V/Second ramp minimum 60 seconds for safety apply, 3 seconds for mass production(4000 Vac) 10 microseconds maximum One hundred percent (100%) of PSU shall comply with the minimum production line Hi-Pot (High Potential) test as noted below. The test shall be applied between the L/N (AC Line and Neutral) to PE (Chassis/Input receptacle ground terminal). (HIPOT Tester should turn off the “ ARC FAIL” Condition.) Parameters Voltage Trip Current Sensitivity Voltage Ramp Time Dwell Time Breakdown Arc Detection Setting 1500 Vac minimum 10 milli-amperes maximum 500 V/Second ramp minimum 60 seconds for safety apply, 3 seconds for mass production(1800 Vac) 10 microseconds maximum SPECIFICATION No. DATE OF ISSUE LED Driver 2014. 06. 30 REV.NO. 01 PAGE 11 /16 5.2. Insulation Resistance One hundred percent (100%) of PSU shall comply with the minimum production line Insulation Resistance test as noted below. The test shall be applied between the L/N (AC Line and Neutral) to Output Terminal (Vout and RTN). Parameters Voltage Dwell Time Insulation Resistance Setting 500Vdc minimum 60 seconds for safety apply, 3 seconds for mass production 4 M ohms One hundred percent (100%) of PSU shall comply with the minimum production line Insulation Resistance test as noted below. The test shall be applied between the L/N (AC Line and Neutral) to PE (Chassis/Input receptacle ground terminal). Parameters Voltage Dwell Time Insulation Resistance Setting 500Vdc minimum 60 seconds for safety apply, 3 seconds for mass production 2 M ohms 5.3. Leakage current The maximum leakage current is < 0.7mA at 277Vac 60Hz with resistive load. (Please refer to IEC 60950). Parameters Input Voltage Leakage Current Setting 277Vac/60Hz 700 micro-amperes maximum SPECIFICATION No. DATE OF ISSUE LED Driver 2014. 06. 30 REV.NO. 01 PAGE 12 /16 5.4. Earth continuity (IEC61347) One hundred percent (100%) of PSU shall comply with the minimum production line Insulation Resistance test as noted below. The test shall be applied between the PE (Input receptacle ground terminal) to PE (Chassis). Maximum resistance: 0.50 Ω,Measured by passing a minimum current of 10 A with a no-load voltage not exceeding 12 V for at least 1 s. Parameters Setting Voltage 12V maximum Current 10A minimum Dwell Time Maximum Resistance 60 seconds for safety apply 3 seconds for mass production 0.5 ohms 6. Safety & Requirements 6.1. Safety The PSU should meet following requirements: Standard UL/cUL UL60950 + UL8750 6.2. EMI The PSU should meet following requirements. The test voltage has tested under 120Vac/60Hz at full load. The margin limit is under 3dB. Standard FCC FCC Part 15 Class B 6.3 Surge The PSU Should meet floolwing requirements : Standard IEC / EN IEC/EN61547 SPECIFICATION No. DATE OF ISSUE 2014. 06. 30 REV.NO. LED Driver 01 PAGE 13 /16 Test Level Equipment Characteristics Independent driver Semi-luminaire Input Power Level ≦25W ＞25W - - 1.2/50 µs L-N - - ± 1 kV L/N - GND - - ± 2 KV Waveform Test Level Note: L-N Use Low impedance (2 ohm) five times for each phase. Note: L/N - GND Use High impedance (12 ohm) five times for each phase 6.4. ESD(Electrostatic Discharges) (EN 61547) (CLASS B) The PSU with lighting fixture should meet following requirements: ESD can not be tested with PSU stand alone must test with lighting fixture. Standard Test Specification Contact Discharge ±4KV ESD IEC 61000-4-2 Air Discharge ±8KV 7. Reliability Item Descriptions Input Vac :120~277Vac Electrolytic Ambient: 50°C Capacitor Life Specification ≧50,000 hours Output Loading: 100% of full load Input Vac 230Vac CMTBF Ambient: 25°C ≧100,000 hours Output Loading: Full load AC 120V/60Hz 100% Burn-in with 100% load (ORT random test) Burn-in (MP stage) No function AC 277V/60Hz 100% Burn-in with 100% load (100% MP stage) error 35~45°C Environment temperature No damage Burn-in 2 hours SPECIFICATION No. DATE OF ISSUE LED Driver 8. Outline Dimensions: 300 x 30 x 21mm [TOP] [Side] [Bottom] 2014. 06. 30 REV.NO. 01 PAGE 14 /16 SPECIFICATION No. DATE OF ISSUE LED Driver 9. Label Drawing: 10. PACKING SPECIFICATION 10.1. Outbox : 483(L) * 385(W) * 148(H) 10.2.Stock pattern 2014. 06. 30 REV.NO. 01 PAGE 15 /16 SPECIFICATION No. DATE OF ISSUE REV.NO. LED Driver 01 11. Appendix A The Output Current and Output Voltage set-up Table is as below Rset Output Current Output Voltage (ohm) (A) (V) 1K 1.3K 1.5K 1.6K 2K 2.4K 2.7K 3.3K 3.9K 4.3K 4.7K 5.6K 6.2K 6.8K 7.5K 8.2K 9.1K 10K 11K 13K 15K 20K 22K 24K 30K 33K 43K 51K 82K 110K 0.507 0.522 0.574 0.596 0.633 0.691 0.738 0.797 0.858 0.895 0.932 0.965 1.000 1.020 1.043 1.065 1.102 1.116 1.138 1.175 1.211 1.248 1.270 1.292 1.307 1.329 1.344 1.365 1.380 1.404 20~50 20~50 20~50 20~50 20~50 20~50 20~50 20~50 20~50 20~50 20~50 20~50 20~50 20~49 20~47 20~46 20~45 20~44 20~43 20~42 20~41 20~40 20~39 20~38 20~38 20~37 20~37 20~36 20~36 20~35 2014. 06. 30 MAX OVP Output Voltage Voltage (V) (V) 50 50 50 50 50 50 50 50 50 50 50 50 50 52 52 52 52 52 52 52 52 52 52 52 52 52 49 47 46 45 44 43 42 41 40 39 38 38 37 37 36 36 35 51 49 48 47 46 45 44 43 42 41 40 40 39 39 38 38 38 PAGE 16 /16