Output Power (W) Output Voltage (V) Output Current (A) Efficiency@ Max Load Max Case Temp. ( C) Input Current (Arms) Max. Input Power (W) Inrush Current (Apk/50%-µs) THD @ Max Load (%) Power Factor @ Max Load Surge Protection Common/Diff (KV) Weight (Lbs/kgs) Envir. Protection Rating 120V 230V 277V 120 V 230 V 277V 120 Vin * 230 Vin 277 Vin 150 96 ~ 214 0.07 0.70 80 C 90 92 93 1.4 0.7 0.6 20/ 150 35/ 455 127/ 116 165 <10 >0.95 See graph See graph 4/4 1.87 / 0.85 UL Damp and Dry * For 230 Vac input, inrush current is tested with 800μH inductor in series. Wire Diagram Dimming Method Dimming Range Minimum Output Current (A) Other Comments 5V 250Hz PWM Isolated 10% ~ 100% 0.070 Short circuit current: 150 µa (±4%) Enclosure Input and output use lead- wires. Lead-wires are 18AWG 105 C/600V solid copper. Lead Length Standard Lead Length is 270 mm (±30mm) on all wires outside the can in. (mm) Case Length 7.31 (185.7) Case Width 2.27 (57.7) Case Height 1.48 (37.6) Mounting Length 8.91 (226.2) Mounting Width 2.27 (37.6) Overall Length 5.53 (240.5)
Label and product specifications Product specifications Order code 929000914808 Full product code 929000914808 Full product name Xitanium 150W 0.70A PWM GL-F sxt Net weight per piece 0.85 kg / 1.87 lbs Interfaces 5 V, 250 Hz PWM Ambient temperature range Corresponding T case 40 to +55 C 15 to +80 C 5V 250Hz PWM dimming specifications 150 µa short circuit current. See dim curve for detail. 5VDC auxiliary power supply specifications 5 VDC ±4%, Voltage ripple = 5% (pk-pk / avg @ 20 MHz BW limit), 1.5 W maximum power output (300 ma output current) Line voltage 120 277 VAC Line current 1.4 A @ 120 VAC, 0.7 A @ 240 VAC, 0.6 A @ 277 VAC Line frequency 50 / 60 Hz Minimum operational line voltage 108 VAC Maximum operational line voltage 305 VAC Environmental protection rating UL Damp and Dry Life @ T case 70 C Refer to graph on datasheet pages Life @ T case 80 C Refer to graph on datasheet pages Suitable for outdoor use? Yes Maximum T case 80 C Maximum driver number for one MCB 16A Curve B 5 16A Curve C 11 25A Curve B 10 25A Curve C 18 Input over-voltage capability Earth leakage current Comply with UL 8750 and EN 61347-1 Output current ripple 30% @ 700 ma (pk-pk / avg) Can survive input over-voltage stress of 320 VAC for 48 hours and 350 VAC for 2 hours
THD Refer to graph on datasheet pages PF @ Maximum load Refer to graph on datasheet pages Lead wire isolation Basic, refer to following sections Isolation between input and output Basic, refer to following sections Isolation to chassis housing Basic, refer to following sections Protection(s) Short Circuit and Open Circuit Protection for LED+ and LED Agency approbations CE, ENEC, CQC, UL, CSA Safety compliance UL 8750, CSA 250.13, EN 61347-2-13 EMC compliance FCC 47 cfr Part 15 Class A, EN 55015, EN 61547 Immunity, EN 61000-3-2, EN 61000-3- 3:1995/+A1:2001/+A2:2005, EN 61000-4-2, EN 61000-4-3, EN 61000-4-4, EN 61000-4-5, EN 61000-4-6, EN 61000-4-8, EN 61000-4-11
Installation and application notes Section I Physical characteristics 1.1 LED driver shall be installed inside an electrical enclosure 1.2 Wiring inside electrical enclosure shall comply with 600V/105 C rating or higher. Section II Performance 2.1 LED Driver tolerates sustained open circuit and short circuit output conditions without damage. 2.2 LED Driver maximum allowable case temperature is 80 C see product label for measurement location. 2.3 LED Driver reduces output power to LEDs if its case temperature (T case ) > 85 C. 2.4 LED Driver complies with the requirements of UL, CSA, FCC 47 subpart 15, CE, ENEC, CISPR 15 Ed 7.2, CQC. Note: Driver is only certified to be used with the controls co-located within the fixture.
Output current (Adc) Dimming curve Sourcing current from orange lead: 150µA (±4%) (orange and orange/black leads short-circuit) LED current tolerance at any value of V dim (voltage between orange and orange/black leads): ±5% of I max (0.70A) Dimming operation range: 10% - 100% Test condition: T case = 70 C Output current vs dimming PWM 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0 0 10 20 30 40 50 60 70 80 90 100 Dimming PWM duty cycle (%)
Output voltage (Vdc) Operating window Three operating modes are provided, as shown in the chart below. Constant current mode. Driver outputs constant current according to the PWM setting level, with a tolerance of ± 5% of maximum output current (0.70 Adc), when output voltage (depends on LED load) is between 96 and 214 Vdc. Constant power mode. Driver maintains the total output power to 150 W ±5%, by reducing output current to corresponding values, when output voltage (depends on LED load) is higher than 214 Vdc and lower than 235 Vdc. The constant power mode provides the ability to operate LED loads with V f (forward voltage) slightly higher than regular value. Power cut back mode. Driver limits the output power to some lower values by reducing output current, when output voltage (depends on LED load) is higher than 235 Vdc. The power cut back mode allows output voltage to be higher than the maximum full-load-operating voltage (235 Vdc), so as to enable LED to start up in (e.g.) very cold ambient. Typical cold start-up voltage of 260 Vdc is provided thanks to this mode. Test condition: T case = 70 C. Blue solid: typical output V/I characteristics. Area between green dash-dot: 150 W ±5% constant power area. Red circles: 214 Vdc and 235 Vdc. Curve between red circles: constant power mode. Curve between red diamonds: unreachable. 280 260 240 220 200 180 160 140 120 100 80 Operating window 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 Output current (Adc)
Efficiency (%) Efficiency Test condition: T case = 70 C Efficiency vs line voltage 94 93.5 93 92.5 92 91.5 100 150 200 250 300 Line voltage (Vrms)
Power factor Power factor Test condition: T case = 70 C Power factor vs output power 1 0.9 0.8 0.7 0.6 120V 220V 277V 0.5 0 50 100 150 Output power (W)
Total harmonics distortion (%) Total harmonics distortion Test condition: T case = 70 C 100 THD vs output power 10 120V 220V 277V 1 0 50 100 150 Output power (W)
Output current (Adc) PSU overheat cut-back Test condition: T case = 70 C PSU over heating 0.7 0.6 0.5 0.4 70 80 90 100 110 120 Tcase ( C)
Inrush current Vin Ipeak T (@ 50% of Ipeak) 120 Vrms 20 A 150 µs 230 Vrms 35 A 455 µs 277 Vrms 127 A 116 µs
Lifetime (k hours) Lifetime Lifetime vs Tcase 100 90 80 70 60 50 40 30 20 Predicted by electrolytic capacitor lifetime 50 khrs @ Tcase=70degC Predicted by MTTF model 100 khrs @ Tcase=70degC 25 30 35 40 45 50 55 60 65 70 75 80 Tcase ( C) Failure rate based upon MTTF (Mean-Time-To-Failure) model: 90% survivals at end of life @ T case 70 C Failure rate based upon field call rate data: Maximum 0.01% (100 ppm) per 1 khr @ T case 70 C
Isolation CE Basic isolation: 2U+1000V Isolation Input Output 5V Auxiliary 5V PWM Dimming Chassis Input NA Basic Basic Basic Basic Output Basic NA Basic Basic Basic 5V Auxiliary Basic Basic NA NA Basic 0-5V PWM Dimming Basic Basic NA NA Basic Chassis Basic Basic Basic Basic NA UL Isolation Input Output 5V Auxiliary 5V PWM Dimming Chassis Input NA 2U+1kV 2U+1kV 2U+1kV 2U+1kV Output 2U+1kV NA 2U+1kV 2U+1kV 2U+1kV 5V Auxiliary 2U+1kV 2U+1kV NA NA 2U+1kV 0-5V PWM Dimming 2U+1kV 2U+1kV NA NA 2U+1kV Chassis 2U+1kV 2U+1kV 2U+1kV 2U+1kV NA
Dimensions Unit in millimeters unless otherwise specified.
Revision history Rev No. Date Description Approval Remarks Preliminary July 15, 2013 Preliminary Release Y F Zhou