t-1 3/4 (5 mm) oval precision optical performance led lamps technical data sun power series hlmp-abxx hlmp-bbxx hlmp-adxx hlmd-bdxx hlmp-agxx hlmp-bgxx hlmp-alxx hlmp-blxx hlmp-amxx hlmp-bmxx caution: the blue and green leds are class 1 esd sensitive. please observe appropriate precautions during handling and processing. refer to agilent application note an-1142 for additional details. features ? smooth, consistent spatial radiation patterns ? wide viewing angle major axis 70? minor axis 35? ? high luminous output ? two red and amber intensity levels available: alingap (bright) and alingap ii (brightest) ? colors: 472 nm blue 526 nm green 590/592 nm amber 626/630 nm red ? superior resistance to moisture ? uv resistant epoxy ? choice of package options applications ? full color/video signs ? variable message signs passenger information advertising time/temperature benefits ? viewing angle designed for wide field of view applications ? red, green, and blue radiation patterns matched for full color signs ? superior outdoor environmental performance description these precision optical performance oval leds are specifically designed for full color/video and passenger information signs. the oval shaped radiation pattern (35? x 70?) and high luminous intensity ensure that these devices are excellent for wide field of view outdoor applications where a wide viewing angle and readability in sunlight are essential. these lamps have very smooth, matched radiation patterns ensuring consistent color mixing in full color applications, and message uniformity across the viewing angle of the sign. high efficiency led materials are used in these lamps: aluminum indium gallium phosphide (alingap) for amber and red, and indium gallium nitride (ingan) for blue and green. there are two families of red and amber lamps, alingap and the higher performance alingap ii. each lamp is made with an advanced optical grade epoxy offering superior high temperature and high moisture resistance in outdoor applications. the package epoxy contains both uv-a and uv-b inhibitors to reduce the effects of long term exposure to direct sunlight. designers can select parallel (where the axis of the leads is parallel to the wide axis of the oval radiation pattern) or perpendicular orientation. designers can also choose between lamps with or without standoffs. the red and amber lamps are available in tinted versions.
2 package dimensions notes:
1. all dimensions are in millimeters (inches).
2. leads are mild steel, solder dipped.
3. tapers shown at top of leads (bottom of lamp package) indicate an
epoxy meniscus that may extend about 1 mm (0.040 in.) down the leads.
4. recommended pc board hole diameters:
?lamp packages a and c without stand-offs: flush mounting at base
of lamp package = 1.143/1.067 mm (0.044/0.042 in.).
?lamp packages b and d with stand-offs: mounting at lead stand-offs. 5.00 ?0.20
(0.197 ?0.008) 31.60
(1.244) min. 0.70 (0.028)
max. 1.00
(0.039) min. 8.71 ?0.20
(0.343 ?0.008) 2.54 ?0.38
(0.100 ?0.015) 0.50 ?0.10
(0.020 ?0.004) sq. typ. cathode
lead 5.00 ?0.20
(0.197 ?0.008) 31.60
(1.244) min. 0.70 (0.028)
max. 1.00
(0.039) min. 8.71 ?0.20
(0.343 ?0.008) 2.54 ?0.38
(0.100 ?0.015) 0.50 ?0.10
(0.020 ?0.004) sq. typ. cathode
lead 1.50 ?.15
(0.059 ?0.006) 5.00 ?0.20
(0.197 ?0.008) 31.60
(1.244) min. 0.70 (0.028)
max. 1.00
(0.039) min. 8.71 ?0.20
(0.343 ?0.008) 2.54 ?0.38
(0.100 ?0.015) 0.50 ?0.10
(0.020 ?0.004) sq. typ. cathode
lead 5.00 ?0.20
(0.197 ?0.008) 31.60
(1.244) min. 0.70 (0.028)
max. 1.00
(0.039) min. 8.71 ?0.20
(0.343 ?0.008) 2.54 ?0.38
(0.100 ?0.015) 0.50 ?0.10
(0.020 ?0.004) sq. typ. cathode
lead 1.50 ?.15
(0.059 ?0.006) a b c d 11.70 + 0.13
?0.08 0.461 + 0.005
?0.003 ) (
3 part numbering scheme hlmp-(1)(2)(3)(4) where (1) = leadframe orientation a = parallel b = perpendicular where (2) = color option l = 590/592 nm amber g = 626 nm red d = 630 nm red m = 525 nm green b = 472 nm blue where (3) = standoff option 0 = without 1 = with where (4) = tint option 1 or 6 = matching color tints refer to selection guides for available combinations. alingap device selection guide (amber, red) color and luminous luminous typical intensity intensity dominant i v (mcd) at i v (mcd) at leads lead wavelength 20 ma 20 ma tinting with frame package part number l d (nm) min. typ. type stand-offs orientation drawing hlmp-al01 amber 590 270 600 amber no parallel a hlmp-al11 amber 590 270 600 amber yes parallel b HLMP-BL01 amber 590 270 600 amber no perpendicular c hlmp-bl11 amber 590 270 600 amber yes perpendicular d hlmp-ag01 red 626 270 600 red no parallel a hlmp-ag11 red 626 270 600 red yes parallel b hlmp-bg01 red 626 270 600 red no perpendicular c hlmp-bg11 red 626 270 600 red yes perpendicular d notes: 1. the luminous intensity is measured on the mechanical axis of the lamp package. 2. the optical axis is closely aligned with the package mechanical axis. 3. the dominant wavelength l d , is derived from the cie chromaticity diagram and represents the color of the lamp.
4 ingan device selection guide (blue, green) color and luminous luminous typical intensity intensity dominant i v (mcd) at i v (mcd) at leads lead wavelength 20 ma 20 ma tinting with frame package part number l d (nm) min. typ. type stand-offs orientation drawing hlmp-am01 green 526 590 1300 green no parallel a hlmp-am11 green 526 590 1300 green yes parallel b hlmp-bm01 green 526 590 1300 green no perpendicular c hlmp-bm11 green 526 590 1300 green yes perpendicular d hlmp-ab01 blue 472 205 400 blue no parallel a hlmp-ab11 blue 472 205 400 blue yes parallel b hlmp-bb01 blue 472 205 400 blue no perpendicular c hlmp-bb11 blue 472 205 400 blue yes perpendicular d notes: 1. the luminous intensity is measured on the mechanical axis of the lamp package. 2. the optical axis is closely aligned with the package mechanical axis. 3. the dominant wavelength l d , is derived from the cie chromaticity diagram and represents the color of the lamp. alingap2 device selection guide (amber, red) color and luminous luminous typical intensity intensity dominant i v (mcd) at i v (mcd) at leads lead wavelength 20 ma 20 ma tinting with frame package part number l d (nm) min. typ. type stand-offs orientation drawing hlmp-al06 amber 592 590 1300 amber no parallel a hlmp-al16 amber 592 590 1300 amber yes parallel b hlmp-bl06 amber 592 590 1300 amber no perpendicular c hlmp-bl16 amber 592 590 1300 amber yes perpendicular d hlmp-ad06 red 630 590 1300 red no parallel a hlmp-ad16 red 630 590 1300 red yes parallel b hlmp-bd06 red 630 590 1300 red no perpendicular c hlmp-bd16 red 630 590 1300 red yes perpendicular d
5 absolute maximum ratings at 25?c amber and red blue and green dc forward current 50 ma 30 ma peak pulsed forward current 70 ma 100 ma average forward current (pulsed operation) 30 ma [1] 30 ma reverse voltage (i r = 100 m a) 5 v reverse voltage (i r = 10 m a) 5 v power dissipation 120 mw 120 mw led junction temperature 130?c 100?c operating temperature range C40?c to +100?c C40?c to +80?c storage temperature range C40?c to +120?c C40?c to +100?c soldering temperature 260?c for 5 sec. 260?c for 5 sec. bin name min. max. g 140 180 h 180 240 j 240 310 k 310 400 l 400 520 m 520 680 n 680 880 p 880 1150 q 1150 1500 r 1500 1900 s 1900 2500 intensity bin limits (mcd at 20 ma) tolerance for each bin limit is 15%. bin name min. max. 1 584.5 587.0 2 587.0 589.5 4 589.5 592.0 6 592.0 594.5 hlmp-xlxx color bin limits (nm at 20 ma) tolerance for each bin limit is 0.5 nm. note: 1. bin categories are established for classification of products. products may not be available in all bin categories. please contact your agilent representative for information on currently available bins. note: 1. higher pulsed average currents can be used under certain conditions. refer to agilent application brief i-024.
6 electrical/optical characteristics at t a = 25?c parameter symbol min. typ. max. units test conditions typical viewing angle major 2 q 1/2 70 ?c minor 35 forward voltage amber ( l d = 590 nm) v f 2.02 2.4 v i f = 20 ma amber ( l d = 592 nm) 2.15 2.4 red ( l d = 626 nm) 1.90 2.4 red ( l d = 630 nm) 2.00 2.4 blue ( l d = 472 nm) 3.5 4.0 green ( l d = 526 nm) 3.5 4.0 reverse voltage amber, red v r 520 v i f = 100 m a blue, green 5 C i f = 10 m a peak wavelength amber ( l d = 590 nm) 592 peak of amber ( l d = 592 nm) l peak 594 nm wavelength of red ( l d = 626 nm) 635 spectral red ( l d = 630 nm) 639 distribution at blue ( l d = 472 nm) 470 i f = 20 ma green ( l d = 526 nm) 524 spectral halfwidth wavelength amber ( l d = 590/592 nm) dl 1/2 17 nm width at red ( l d = 626/630 nm) 17 spectral blue ( l d = 472 nm) 35 distribution green ( l d = 526 nm) 47 1/2 power point at i f = 20 ma capacitance v f = 0, f = 1 mhz amber, red c 40 pf blue, green 43 thermal resistance led junction- amber, red r q j-pin 240 ?c/w to-cathode lead blue, green 240 luminous efficacy emitted amber (l d = 590 nm) 480 luminous amber ( l d = 592 nm) h v 500 im/w power/emitted red ( l d = 626 nm) 150 radiant power red ( l d = 630 nm) 155 blue ( l d = 472 nm) 75 green ( l d = 526 nm) 520 notes: 1. 2 q 1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity. 2. the radiant intensity, i e in watts per steradian, may be found from the equation i e = i v / h v where i v is the luminous intensity in candelas and h v is the luminous efficacy in lumens/watt.
7 figure 1. relative intensity vs. wavelength. figure 2. blue, green forward current vs. forward voltage. figure 3. amber, red forward current vs. forward voltage. figure 4. blue, green relative luminous intensity vs. forward current. figure 5. amber, red relative luminous intensity vs. forward current. figure 6. blue, green maximum forward current vs. ambient temperature. figure 7. amber, red maximum forward current vs. ambient temperature. wavelength ?nm relative intensity 1.0 0.5 0 400 500 600 700 450 550 650 0.4 0.3 0.2 0.1 0.6 0.7 0.8 0.9 blue green amber red 0 70 60 40 20 current ?ma v f ?forward voltage ?v 1.0 3.0 amber 1.5 2.0 2.5 10 30 50 red 0 1.5 0.5 intensity normalized at 20 ma i f ?forward current ?ma 0102030 1.0 51525 relative luminous intensity
(normalized at 10 ma) 0 0 i f ?dc forward current ?ma 20 40 2.0 1.0 60 3.0 0.5 1.5 2.5 i f ?forward current ?ma 0 0 t a ?ambient temperature ?? 40 80 40 20 10 20 60 30 100 5 15 25 35 i f ?forward current ?ma 0 0 t a ?ambient temperature ?? 40 80 50 40 30 20 10 20 60 100 r q ja = 585?c/w r q ja = 780?c/w 0 30 25 15 10 forward current forward voltage 2.0 2.6 3.0 3.8 5 20 2.2 2.8 3.4 2.4 3.2 3.6
figure 8. spatial radiation pattern C 35 x 70 degree lamps. relative intensity ?% 100 0 vertical angular displacement ?degrees 80 60 50 70 20 50 10 30 40 40 0 20 -10 -30 -50 90 30 10 -20 -40 relative intensity ?% 100 0 horizontal angular displacement ?degrees 80 60 50 70 20 50 10 30 40 40 0 20 -10 -30 -50 90 30 10 -20 -40 www.semiconductor.agilent.com data subject to change. copyright ? 2000 agilent technologies, inc. obsoletes 5967-5678e 5980-0672e (6/00)
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