Agilent Technologies HLMP-ABxx HLMP-BBxx HLMPADxx HLMP-BDxx HLMP-AGxx HLMPBGxx HLMP-ALxx HLMP-BLxx HLMP-AMxx HLMP-BMxx handbook
Contents
1. 30 20 10 0 10 20 30 40 50 HORIZONTAL ANGULAR DISPLACEMENT DEGREES Figure 8 Spatial radiation pattern 35 x 70 degree lamps Intensity Bin Limits Amber Color Bin Limits mcd at 20 mA nm at 20 mA Bin Name Min Max Bin Name Min Max G 140 180 1 584 5 587 0 H 180 240 2 587 0 589 5 J 240 310 4 589 5 592 0 K 310 400 6 592 0 594 5 L 400 520 Tolerance for each bin limit is x 0 5 nm M 520 680 N 680 880 880 1160 Blue Color Bin Limits 0 1150 1500 nm at 20 mA R 1500 1900 Bin Name Min Max S 1900 2500 1 460 0 464 0 T 2500 3200 2 464 0 468 0 U 1900 2500 3 468 0 472 0 Tolerance for each bin limit is x 1596 4 472 0 476 0 5 476 0 480 0 Tolerance for each bin limit is 0 5 nm Green Color Bin Limits nm at 20 mA Bin Name Min Max 1 520 0 524 0 2 524 0 528 0 3 528 0 532 0 4 532 0 536 0 5 536 0 540 0 Tolerance for each bin limit is 0 5 nm Vf Bin Tablel2 Bin Id Min Max VA 2 0 2 2 VB 2 2 24 VC 24 2 6 Notes All bin categories are established for classifi cation of products Products may not be available in all bin categories Please contact your Agilent representative for further information N Vf bin table only available for those numbers with options xxRxx xxSxx XxTxx www agilent com semiconductors For product information and a complete list2. of distributors please go to our web site For technical assistance call Americas Canada 1 800 235 0312 or 916 788 6763 Europe 49 0 6441 92460 China 10800 650 0017 Hong Kong 65 6756 2394 India Australia New Zealand 65 6755 1939 Japan 81 3 3335 8152 Domestic Interna tional or 0120 61 1280 Domestic Only Korea 65 6755 1989 Singapore Malaysia Vietnam Thailand Philippines Indonesia 65 6755 2044 Taiwan 65 6755 1843 Data subject to change Copyright 2004 Agilent Technologies Inc August 27 2004 5988 9224EN a Agilent Technologies
3. 59 0 006 0 343 0 008 0 50 0 10 e 0 020 0 004 SQ TYP T i 0 70 0 028 0 100 0 015 Wa cM MAX a 1 gt X 013 1170 _ 9 08 CATHODE MIN 0 005 LEAD 0461 31 60 1 244 MIN 8 71 0 20 quam 0 343 0 008 0 020 20004 80 TYP 2 54 0 38 5 00 0 20 0 197 x 0 008 0 70 0 028 0 100 0 015 5 00 0 20 0 197 0 008 i NOTES ges CATHODE 1 00 LEAD 0 039 31 60 1 244 MIN 1 50 0 15 8 71 0 20 0 059 0 006 0 343 0 008 0 50 0 10 SQ TYP gt 0 020 0 004 2 54 0 38 0 70 0 028 0 100 0 015 E MAX p mE gc i l i CATHODE 100 MIN LEAD 0 039 31 60 MIN 1 244 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 STA ND 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 Absolute Maximum Ratings at TA 25 C Parameter Blue and Green Red and Amber DC Forward Current 30 mA 50 mA Peak Pulsed Forward Currentl2 100 mA 100 mA Averag
4. 92 680 2 6 Yes Perpendicular D HLMP BL16 PSOxx Amber 592 880 2500 2 4 Yes Perpendicular D HLMP BL16 PSRxx Amber 592 880 2500 2 6 Yes Perpendicular D Table 2 LED Indicators Device Selection Guide for AllnGaP Color and Luminous Luminous Dominant Intensity Intensity Leads Wavelength 1 mcd at l mcd at with Leadframe Package Part Number Aa nm Typ 20 mA Min 20 mA Max Stand offs Orientation Drawing HLMP AG01 K00xx Red 626 310 No Parallel A HLMP AG11 KNOxx Red 626 310 880 Yes Parallel B HLMP ALO1 K00xx Amber 590 310 No Parallel A HLMP ALO1 LPOxx Amber 590 400 1150 No Parallel A HLMP AL01 NROxx Amber 590 680 1900 No Parallel A HLMP AL11 KNOxx Amber 590 310 880 Yes Parallel B HLMP AL11 NROxx Amber 590 680 1900 Yes Parallel B HLMP BG01 LM0xx Red 626 400 520 No Perpendicular C HLMP BG01 MNOxx Red 626 520 880 No Perpendicular C HLMP BG11 KNOxx Red 626 310 880 Yes Perpendicular D HLMP BL01 NROxx Amber 590 680 1900 No Perpendicular C HLMP BL11 KNOxx Amber 590 310 880 Yes Perpendicular D HLMP BL11 NROxx Amber 590 680 1900 Yes Perpendicular D Table 3 Device Selection Guide for InGaN Color and Dominant Luminous Intensity Leads with Leadframe Package Part Number Wavelength Ad nm Typ lv mcd at20 mA Min Stand offs Orientation Drawing HLMP AB01 J00xx Blue 472 240 No Parallel A HLMP BB11 J00xx Blue 472 240 Yes Perpendicular D HLMP BB11 K00xx Blue 472 310 Yes Perpendicu
5. ARD CURRENT mA Figure 5 Amber red relative luminous intensity vs forward current DC FORWARD CURRENT mA 0 0 5 1 0 1 5 2 0 FORWARD VOLTAGE V Figure 3b Forward current vs forward voltage for option xxTxx red and option xxRxx and xxSxx amber lp FORWARD CURRENT mA 8 0 20 40 60 80 100 AMBIENT TEMPERATURE C Figure 6 Blue green maximum forward current vs ambient temperature p FORWARD CURRENT mA a 0 24 26 28 30 32 34 36 Vf FORWARD VOLTAGE V Figure 2 Blue green forward current vs forward voltage 15 lt E amp o 10 N pur lt 2 0 5 22 2 0 0 5 10 15 20 25 30 Ip FORWARD CURRENT mA Figure 4 Blue green relative luminous intensity vs forward current 50 40 Raya 585 C W 30 Raya 780 CW 20 FORWARD CURRENT mA 0 20 40 60 80 100 TA AMBIENT TEMPERATURE Figure 7 Amber red maximum forward current vs ambient temperature RELATIVE INTENSITY 30 20 10 0 10 20 30 40 50 VERTICAL ANGULAR DISPLACEMENT DEGREES RELATIVE INTENSITY 96
6. O0 HLMP ABO1 J0000 Agilent HLMP ABxx HLMP BBxx HLMP g o s ADxx HLMP BDxx HLMP AGxx HLMP oo BGxx HLMP ALxx HLMP BLxx e e HLMP AMxx HLMP BMxx 1 13 4 5 mm e99 Oval Precision Optical Performance e e AllnGaP and InGaN Lamps e e e Data Sheet Features Well defined spatial radiation pattern Viewing angles Major axis 70 Minor axis 35 High luminous output Red and Amber Intensity are available for AllnGaP Bright Description High efficiency LED material is iL Brightest These Precision Optical used in these lamps Aluminum 472 n blue Performance Oval LEDs are Indium Gallium Phosphide FJE am areen specifically designed for full AlInGaP for amber and red 626 nm ir color video and passenger and Indium Gallium Nitride 630 nm red 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 application 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 message uniformity across the viewing angle of the sign InGaN for blue and green Each lamp is made with an advance optical grade epoxy offering superior high temperature and high moisture resistance in outdoor applications The package epoxy contains both UV A and UV B inhi
7. bitors to reduce the effects of long term exposure to direct sunlight Designers can select parallel or perpendicular orientation Both lamps are available in tinted version 590 nm amber 592 nm amber Superior resistance to moisture UV resistant epoxy Benefits Viewing angle designed for wide field of view application Red green and blue radiation patterns matched for full color sign Superior performance in outdoor environments Applications Full color video signs additional details 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 GE Agilent Technologies Table 1 Device Selection Guide for AllnGaP Color and Luminous Luminous Forward Dominant Intensity Intensity Voltage Leads Wavelength 1 mcd at 1 V V with Leadframe Package Part Number nm Typ 20 Min 20mAMax Max Stand offs Orientation Drawing HLMP AD06 P00xx Red 630 880 2 4 No Parallel A HLMP AD06 POTxx Red 630 880 2 6 No Parallel A HLMP AD16 P00xx Red 630 880 2 4 Yes Parallel B HLMP AD16 POTxx Red 630 880 2 6 Yes Parallel B HLMP AD16 RSOxx Red 630 1500 2500 2 6 Yes Parallel B HLMP AD16 RSTxx Red 630 1500 2500 2 6 Yes Parallel B HLMP AD16 RUOxx Red 630 1500 4200 24 Yes Para
8. e Forward Current 30 mA 30 mA Reverse Voltage Ip 100 uA 5V Reverse Voltage Ig 10 uA 5V Power Dissipation 120 mW 120 mW LED Junction Temperature 130 C 130 C Operating Temperature Range 40 C to 80 C 40 C to 100 C Storage Temperature Range 40 C to 100 C 40 C to 120 C Wave Soldering Temperaturel 250 C for 3 seconds 250 C for 3 seconds Notes 1 Derate linearly from Figure 7 2 Duty Factor 30 KHz 3 1 59 mm 0 060 in below body Electrical Optical Characteristics at TA 25 Parameter Symbol Typ Max Units Test Conditions Typical Viewing Angle Major 20172 70 deg Minor 35 Forward Voltage Vr V lp 20 mA Red Ag 626 nm 2 0 24 Red Aq 630 nm Option xx0xx 2 2 24 Option xxTxx 2 3 2 6 Amber Aq 590 nm 2 0 24 Amber Ag 592 nm Option xx0xx 2 2 2 4 Option xxRxx xxSxx 2 3 2 6 Blue Ag 472 nm 3 5 4 0 Green Ag 526 nm 3 5 4 0 Reverse Voltage Amber Red Vn 20 V Ig 100 uA Blue Green Ig 10 uA Peak Wavelength Peak of Wavelength of Amber Aq 592 nm peak 594 nm Spectral Distribution Red Ag 630 nm 639 at lp 20 mA Blue Ag 472 nm 470 Green Aq 526 nm 524 Spectral Halfwidth Wavelength Width Amber A4 592 nm A42 17 nm at Spectral Distribution Red Ag 630 nm 17 1 2 Power Point at Blue A4 472 nm 35 lp 20 mA Green Ag 526 nm 47 Capacitance Ve 0 F 1 MHz Amber Red C 40 pF Blue Green 43 Luminous Efficacy Emitted Luminous Ambe
9. lar D HLMP BM11 L00xx Green 526 400 Yes Perpendicular D HLMP BM11 000xx Green 526 1150 Yes Perpendicular D HLMP AB11 J00xx Blue 472 240 Yes Parallel B HLMP AM01 000xx Green 526 1150 No Parallel A HLMP BB01 JOBxx Blue 472 240 No Perpendicular HLMP BB11 KNOxx Blue 472 310 Yes Perpendicular D HLMP BM01 L00xx Green 526 400 No Perpendicular Tolerance for intensity range limit is 15 Part Numbering System HLMP XXXX XXXXX Mechanical Options 00 Bulk Packaging DD Ammo Pack YY Flexi Bin Bulk Packaging ZZ Flexi Bin Ammo Pack Color Bin 0 No Color Bin Limitation R Color Bins 1 2 4 and 6 with Vp max of 2 6 V T Red Color with Vg max of 2 6 V B Color bin 2 and 3 only K Color bins 2 and 4 only 5 Color bins 2 and 4 with VF max of 2 6 V Maximum Intensity Bin 0 No Iv Bin Limitation Minimum Intensity Bin Tint Option 1 or 6 Matching Color Tints Standoff Option 0 Without 1 With Color B 472 nm Blue D 630 nm Red G 626 nm Red L 590 or 592 nm Amber M 526 nm Green Package A 5 mm 35 x 70 Oval Parallel B 5 mm 35 x 70 Oval Perpendicular Package Dimensions 8 71 0 20 0 50 0 10 0 343 0 008 0020000 5 Biol 2 54 0 38 5 00 0 20 0 197 0 008 0 70 0 028 0 100 0 015 MAX C a gt CATHODE 1 00 LEAD 0 039 31 60 1 244 MIN 1 50 0 15 8 71 0 20 0 0
10. llel B HLMP AD16 RUTxx Red 630 1500 4200 2 6 Yes Parallel B HLMP AD16 STOxx Red 630 1900 3200 24 Yes Parallel B HLMP AD16 STTxx Red 630 1900 3200 2 6 Yes Parallel B HLMP AL06 L00xx Amber 592 400 2 4 No Parallel A HLMP AL06 LORxx Amber 592 400 2 6 No Parallel A HLMP AL06 N00xx Amber 592 680 24 No Parallel A HLMP AL06 NORxx Amber 592 680 2 6 No Parallel A HLMP AL16 N00xx Amber 592 680 2 4 Yes Parallel B HLMP AL16 NORxx Amber 592 680 2 6 Yes Parallel B HLMP AL16 PSRxx Amber 592 880 2500 2 6 Yes Parallel B HLMP AL16 QROxx Amber 592 1150 1900 2 4 Yes Parallel B HLMP AL16 QRRxx Amber 592 1150 1900 2 6 Yes Parallel B HLMP BD06 P00xx Red 630 880 2 4 No Perpendicular C HLMP BD06 POTxx Red 630 880 2 6 Perpendicular HLMP BD06 RSOxx Red 630 1500 2500 2 4 No Perpendicular C HLMP BD06 RSTxx Red 630 1500 2500 2 6 No Perpendicular C HLMP BD16 P00xx Red 630 880 2 4 Yes Perpendicular D HLMP BD16 POTxx Red 630 880 2 6 Yes Perpendicular D HLMP BD16 RUOxx Red 630 1500 4200 24 Yes Perpendicular D HLMP BD16 RUTxx Red 630 1500 4200 2 6 Yes Perpendicular D HLMP BD16 STOxx Red 630 1900 3200 24 Yes Perpendicular D HLMP BD16 STTxx Red 630 1900 3200 2 6 Yes Perpendicular D HLMP BL06 N00Oxx Amber 592 680 24 No Perpendicular C HLMP BL06 NORxx Amber 592 680 2 6 No Perpendicular HLMP BL06 QRKxx Amber 592 1150 1900 24 No Perpendicular HLMP BL06 QRSxx Amber 592 1150 1900 2 6 No Perpendicular C HLMP BL16 N00xx Amber 592 680 24 Yes Perpendicular D HLMP BL16 NORxx Amber 5
11. r 592 nm Nv 500 Im W Power Emitted Radiant Red Aq 630 155 Power at lr 20 mA Blue Ag 472 nm 75 Green Ag 526 nm 520 Thermal Resistance RO piN 240 C W LED Junction to Cathode Lead Notes 261 2 is the off axis angle where the luminous intensity is 1 2 the on axis intensity 2 The radiant intensity 1 in watts per steradian may be found from the equation le lj my where ly is the luminous intensity in candelas and ny is the luminous efficacy in lumens watt o0 gt The luminous intensity is measured on the mechanical axis of the lamp package The optical axis is closely aligned with the package mechanical axis The dominant wavelength Aq is derived from theCIE Chromaticity Diagram and represents the color of the lamp For Options xxRxx xxSxx and xxTxx max forward voltage Vf is 2 6 V Refer to Vf bin table 1 0 09 BLUE GREEN AMBER RED 0 8 0 7 0 6 0 5 0 4 RELATIVE INTENSITY 0 3 0 2 0 1 0 400 450 500 550 600 650 700 WAVELENGTH nm Figure 1 Relative intensity vs wavelength RED AMBER CURRENT mA 1 0 15 20 25 3 0 Vr FORWARD VOLTAGE V Figure 3a Amber red forward current vs forward voltage 25 _ 20 a 8 RED nm e Ze 15 T ga N AMBER mq aS mo c2 05 0 0 10 20 30 40 50 FORW
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