ultra bright lamps & cluster & chmsl 6-21 super flux leds ltl911qrks / 912qrks super red ltl911qeks / 912qeks red ltl911qhks / 912qhks red orange ltl911qyks / 912qyks amber yellow features high current operation / high flux output. low thermal resistance / low profile. widely viewing angle. meet sae/ece/jis automotive color requirements. tube package for automatic insertion requirement. description the source devices are made with as alingap light emitting diode. this package design allows the lighting designer to reduce the number of leds required and provide a more uniform and unique illuminated appearance. this is possible through the packages efficient optical de- sign and high-current capabilities. the low profile pack- age can be easily coupled to reflectors or lenses to efficiently distribute light and provide the desired illumi- nated appearance. application automotive exterior lighting. electronic sign and signals. devices part no. ltl lens source color 911qrks / 912qrks 911qeks / 912qeks water clear water clear water clear alingap super red alingap red alingap red orange 911qyks / 912qyks 911qhks / 912qhks water clear alingap amber yellow package dimensions notes: 1. all dimensions are in millimeters (inches). 2. protruded resin is 1.0mm (.04 ) max. 3. lead spacing is measured where the leads emerge from the package. 4. specifications are subject to change without notice.
6-22 parameter power dissipation peak forward current (1/10 duty cycle, 0.1ms pulse width) continuous forward current derating linear from 70 reverse voltage (i r =100 a) operating temperature range storage temperature range soldering preheat temperature lead soldering temperature absolute maximum ratings at ta=25 red orange amber yellow unit 190 160 70 10 1.17 190 160 70 10 1.17 190 160 70 10 1.17 190 160 70 10 1.17 mw ma ma v ma/ -40 to + 100 -55 to + 100 100 for 30 seconds 260 for 5 seconds [1.5mm(.06 ) from seating plane] notes: operation at currents below 10ma is not recommended. super red red
ultra bright lamps & cluster & chmsl 6-23 electrical / optical characteristics and curves at ta= 25 911qrks 911qeks 911qhks 911qyks 912qrks 912qeks 912qhks 912qyks 911qxks 912qxks 911qrks 911qeks 911qhks 911qyks 912qrks 912qeks 912qhks 912qyks 911qrks 911qeks 911qhks 911qyks 912qrks 912qeks 912qhks 912qyks 911qrks 911qeks 911qhks 911qyks 912qrks 912qeks 912qhks 912qyks 600 600 600 600 600 600 600 600 20 20 18 15 20 20 18 15 631 624 618 592 631 624 618 592 639 632 624 595 639 632 624 595 0.6 1.2 1350 1850 1850 1550 1350 1850 1850 1550 total flux luminous lntensity / total flux peak emission wavelength dominant wavelength spectral line half-width forward voltage reverse voltage thermal resistance p d v i v / v v r v f r j-pin nm nm mlm mcd / mlm nm v v /w measurement @ peak (fig.1) if=70ma note 1 note 2 (fig.5) i r =100 a i f =70ma 2.65 2.15 160 notes: 1. v is the total luminous flux output as measured with an integrating sphere. 2. is the off-axis angle at which the luminous intensity is half the axial luminous intensity. 3. the dominant wavelength, d is derived from the cie chromaticity diagram and represents the single wavelength which defines the color of the device. capacitance c pf v f =0, f=1mhz viewing angle 2 911qxks 912qxks 90 60 deg note 3 20 40 1.85 10 parameter symbol part no. ltl min. typ. max. unit test condition
6-24 typical electrical / optical characteristic curves (25 ambient temperature unless otherwise noted)
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