T-1 (8 mm) Auto Insertable LED Lamps Technical Data HP SunPow er Series HLMP-N20X HLMP-NGO5 HLMP-N30X HLMP-NHO1 HLMP-N40X HLMP-NJO1 HLMP-N50X HLMP-NLO5 HLMP-N60X HLMP-N10X Features * T-1 (8 mm) Auto Insertable Package AlnGaP SunPower Intensity * High Light Output * Tinted Diffused and Tinted Non-diffused Lens Options * Wide Viewing Angle * Variety of Colors Available with Straight or Formed Lead Tape and Reel Options Device Selection Guides Description This family of 3 mm LED Lamps is capable of withstanding automatic insertion and wave soldering processes. Designed with a thick epoxy flange and soft leadframe material, it is ideal for clinch and cut operations. Applications * General Purpose High Volume Manufacturing High Brightness Lamps Package Luminous Intensity Viewing Angle | Color Part Number | Diff. | Tint | Typ. mcd, If @ 20 mA 261/, (Degrees) AllnGaP Red HLMP-NGO5 bu 250 45 AllnGaP Red Orange HLMP-NHO1 250 45 AlInGaP Orange HLMP-NJO1 265 45 AllnGaP Amber HLMP-NLO5 uy 260 45 DH AS AlGaAs Red HLMP-N100 x Wl 42 60 HLMP-N105 uy 110 45 High Efficiency Lamps Package Luminous Intensity | Viewing Angle | Color Part Number | Diff. | Tint | Typ. med, If @ 10 mA 261/. (Degrees) High Efficiency Red HLMP-N200 x x 12 60 (HER) HLMP-N205 xX 38 45 Yellow HLMP-N300 x x 15 60 HLMP-N305 x 27 45 Orange HLMP-N400 x x 22 60 HLMP-N405 xX 28 45 High Performance Green HLMP-N500 x x 28 60 HLMP-N505 xX 48 45 Emerald Green HLMP-N600 xX WW 4.5 60 HLMP-N605 bu 10 45 Note: 1. 2061/5 is the off axis angle where the luminous intensity is 1/, the on axis intensity.Package Dimensions SEATING PLANE Ly 5.9 + 0.5 23.0 1.040.5 0.29 + 0.02) / (0.91) (0.04 + 0.02) 3.5 40.3 . CATHODE MARKS (0.14 + 0.01) 0.65 (0.03) MAX. ( / O44 0.2 tt jo 1 | {0.02 + 0.04) 4at03 9 34 toe C ! - | 2.5 40.3 : J + (0.1740.01) (0.124 0.01) (0.10 + 0.01) l ni _, 0.44 0.2 0.45 + 0.10 oa tO (0.01 + 0.01) (0.02 + 0.007) ao 00 2.0 (0.08) REF. (0.2 9.00) NOTES: 1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES). 5.4402 2. LEADS ARE MILD STEEL. SOLDER COATED. "(0.19 + 0.01} 5. EPOXY MENISCUS OF 0.8mm (0.03 in.) MAXIMUM MAY EXTEND TO THE LEADS. Absolute Maximum Ratings at T, = 25 C High AlInGaP Performance Amber, High Green & DH AS Orange, Efficiency Red Emerald AlGaAs Red-Orange, Parameter and Orange Yellow Green Red & Red Units DC Forward Current!) 30 20 30 30 30123] mA Reverse Voltage 5 Vv Ur = 100 pA) Junction Temperature, 110 C Timax Storage Temperature -40 to +85 C Range Operating Temperature -20 to +85 -40 to +85 C Range Lead Soldering A) DIP/DRAG Soldering: 260 C for 5 seconds Temperature B) Wave Solder Temperature: 245 C for 3 seconds [1.6 mm (0.063 in.) from seating plane] Notes: 1. See Figure 4 for maximum current derating vs. ambient temperature. 2. Suggested minimum DC current: 10 mA 3. Maximum Peak Pulsed Forward Current: 50 mA, 30 mA average.Electrical Characteristics at T, = 25 C Capacitance Speed of Response Forward C (pF) 1, (ns) Voltage Vf = 0, Thermal Time Constant Vf (Volts) f = 1 MHz Resistance RO, py ett, Part Number | Typ. | Max. |If (mA) Typ. CCW) Typ. HLMP-N10X% 1.80 2.2 20 30 290 30 HLMP-N20X 1.90 2.4 10 11 290 90 HLMP-N30xX 2.00 2.4 10 15 290 90 HLMP-N40X 1.90 2.4 10 4 290 280 HLMP-N50X 2.10 2.7 10 18 290 500 HLMP-N60X 2.10 2.7 10 35 290 3100 HLMP-NLOX!! 2.02 2.4 20 40 240 20 HLMP-NJO1!!! 1.98 2.4 20 40 240 20 HLMP-NHOX!!1 1.94 2.4 20 AO 240 20 HLMP-NGOX!] 1.90 2.4 20 40 240 20 Note: 1. Please contact your Hewlett Packard Sales Representative about operating currents below 10 mA. Optical Characteristics at T, = 25 C . Color Luminous Peak Dominant Spectral Luminous Intensity Wavelength | Wavelength Half Efficacy Iv Gedy! A peak (nm) | 4 d2] (nm) Width nell Part Number | Min. | Typ. |If (mA) Typ. Typ. Typ. (m/w) HLMP-N100 13.8 42 20 HLMP-N105 35.2 110 20 645 637 a7 80 HLMP-N200 8.6 12 10 HLMP-N205 13.8 38 10 635 626 40 145 HLMP-N300 9.2 15 10 HLMP-N305 14.7 27 10 583 585 36 500 HLMP-N400 5.4 22 10 HLMP-N405 13.8 28 10 600 604 37 380 HLMP-N500 10.6 28 10 HLMP-N505 17 48 10 565 570 28 595 HLMP-N600 1 4.5 10 HLMP-N605 4,2 10 10 558 560 24 656 HLMP-NLO5 147 260 20 592 590 17 480 HLMP-NJO1 138 265 20 609 605 17 370 HLMP-NHO1 138 250 20 621 615 17 260 HLMP-NGO5 138 250 20 635 626 17 150 Notes: 1. The luminous intensity, lv, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation pattern may not be aligned with this axis. 2. The dominant wavelength, 4d, is derived from the CIE Chromaticity Diagram and represents the color of the device. 3. The radiant intensity, le, in watts per steradian, may be found from the equation le = lv/n,, where lv is the luminous intensity in candelas and 4, is the luminous efficacy in lumensAvatt.HIGH BRIGHTNESS LAMPS 1.0 AMBER ORANGE AllnGaP RED = a DH AlGaAs RED z RED-ORANGE wl Z os Wu = Fs a al Wu c 0 550 600 650 700 WAVELENGTH nm HIGH EFFICIENCY LAMPS 1.0 EMERALD GREEN ORANGE HIGH iE PERFORMANCE a GREEN HIGH z EFFICIENCY wd E \ \ = os = YELLOW - al uw ec o 500 550 600 650 700 WAVELENGTH -nm Figure 1. Relative Intensity vs. Peak Wavelength. HIGH BRIGHTNESS LAMPS HIGH EFFICIENCY LAMPS 90 GREEN, go L EMERALD GREEN & AllnGaP & 70 F RED e z 50 =z i DH AsAlGaAs w 60 RED Ss = 50 Qo oO a Oo 40 IGH = = EFFICIENCY = = 30|-RED/ORANGE S 5 no u 20 1 1 a 10 0 0 1.0 1.8 2.0 2.8 3.0 0 0.5 1.0 1.5 20 28 3.9 38 4.0 Vp - FORWARD VOLTAGE - V Vp - FORWARD VOLTAGE - V Figure 2. Forward Current vs. Forward Voltage.HER, ORANGE, YELLOW, AND HIGH HIGH BRIGHTNESS LAMPS PERFORMANCE GREEN, EMERALD GREEN 4.0 ra a - E 3.5 oO a z<a za we ws 3.0 5 S AllnGaP Eo or a E 2.5 3 =< 2 af z 4 DH As AlGaAs z a 2.0 2H =n a Zz aa ts w= w = 23 >= 1.0 =o po" az t= a a 0.5 c c 0 o 10 20 30 40 Q 5 10 15 20 25 30 lp - DC FORWARD CURRENT - mA Ipc - DC CURRENT PER LED -mA Figure 3. Relative Luminous Intensity vs. Forward Current. HER, ORANGE, YELLOW, AND HIGH AllnGaP DH As AlGaAs RED PERFORMANCE GREEN, EMERALD GREEN 40 ro oT T 7 1 HER, ORANGE, GREEN rd t ft a , , , = : = *l EMERALD GREEN 1 1 ! L\ | | rE E EO a it Fr Roy, = 470 C/W| , rs rs oc 25 t t q Ss Rosa = 500 Cav s Reya = 559 C/W = Rosa = 300 CW i. a RO ya = G80" CW a a YELLOW g8a Ps Roya = 750 CW & Resa & 688" CW = 45 MN = = = ROj_ = 708 CW ON c c 10 2 eo o =~ a mu uw 1 \ | 5 i + at 0 0 0 10 20 30 40 50 60 70 80 90 0 20 40 60 80 0 20 40 60 ao Ta - AMBIENT TEMPERATURE C Tq - AMBIENT TEMPERATURE - C T, - AMBIENT TEMPERATURE - C Figure 4. Maximum Forward DC Current vs. Ambient Temperature.1 0.9 0.8 OF 0.6 0.8 o.4 0.3 NORMALIZED INTENSITY 0.2 O41 0 +90 -80 -70 -60 -50 -40 -30 -20 -10 0 ANGULAR DISPLACEMENT - DEGREES 10 20 30 40 50 60 70 80 90 Figure 5. Representative Spatial Radiation Pattern for 45 Viewing Angle. 1 0.9 0.8 o.7 0.6 0.8 o.4 0.3 NORMALIZED INTENSITY 0.2 O41 0 90 -80 -70 -60 -50 -d0 -30 -20 -10 0 ANGULAR DISPLACEMENT - DEGREES 10 20 30 40 50 60 70 80 90 Figure 6. Representative Spatial Radiation Pattern for 60 Viewing Angle. Taping Options Straight Lead Option #002 #2CA #2CD Dimension B - - - Dimension H 20.5+ 1.0 18.0+ 1.0 20.5+ 1.0 (0.814 0.04) (0.714 0.04) | (0.81+ 0.04) Formed Lead Option #2UK #2UL #2UM #2UN #2UP #2UQ #2UR Dimension B 12.0+ 1.0 9.0+ 1.0 10.0+ 1.0 11.0+ 1.0 138.0+ 1.0 14.04 1.0 15.0+ 1.0 (0.47 + 0.04)|(0.35 + 0.049} (0.39 + 0.04)/(0.43 + 0.04)|(0.81 + 0.04)|(0.55 + 0.04)/(0.59 + 0.04) Dimension H 16.0+ 1.0 (0.63 + 0.04) Units: mm (inches)Tape Outline Drawing 0.01.0 sae were wl} | 0.04 1.0 (0.00 + 0.04} (ost cosy ta. a a (0.00 + 0.64) | | | CATHODE * L LEAD | s1t0.7 | | 1.5 (0.06) MAX. (0.20 + 0.03) I | DIMENSION "H" (SEE TABLE} ( (0.10) MAX, ' f F H 7 11.0 9.1 40.8 . | | | (0.43) Max 14.01.7 (0.96 + 0.03) saoero OSS t O07) | | (0.71 # 0.04} G)-|4- Ol. Ol. -|| l u 2540.8 (0.10 # 0.01) {st \ A A 4,040.2 12.74 0.3 Line Fo 6+ oon? (0.50 + 0.01} 07 +02 + VIEW ALA (0.08 # 0.01) STRAIGHT LEAD 0.0 41.0 0.04 1.0 6441.8 127410 | yt . ls (0.00 # 0.04) (0.25 + 0.05) 70.50 # 0.04) | (0.00 # 0.04) | | | fT) caTHODE a | LEAD I H DIMENSION "B" 39807 T (SEE TABLE} 1.5 (0.08) MAX, (0.15 40.08) 2.5 (0.10) MAX. DIMENSION H" [ fl ; (SEE TABLE) ; Fr tt 7 suey MAX. ily et) | | | | ee 14.044.7 (0.86 + 0.03) seoero (eet O07) } } } } (0.71 + 0.04) G)4-4+ +4 7 tO -|| J u u 2540.9 (0.10 # 0.01} fF A 4.0202 le 2720.3 |! 4 ae (0.162 0.01 yryP. (0.50 + 0.01) 0.7 40.2 VIEW A-A (0.08 20.01} FORMED LEADPackage Options Lead Option | Ammo Pack (1000 pes.) Tape & Reel (2000 pes.) Straight Lead #2C _ #002 Formed Lead #2U _ FROM LEFT SIDE OF BOX, ADHESIVE TAPE IS FACING eT kA ANODE LEAD LEAVES THE BOX FIRST. < 140 336 (13.23) 52 (208) oe DIMENSIONS IN MILLIMETERS (INCHES). AMMO PACK (for All options except #002) REELING ORIENTATION CLOCKWISE EN ADHESIVE TAPE MUST BE FACING TOWARDS THE OUTSIDE OF THE REEL. 110 (4.33) DIA. 336 (19.23) DIA. DIMENSIONS IN MILLIMETERS (INCHES). THE REEL FIRST. CARDBOARD TAPE & REEL (for option #002 only) 5.51) ANODE LEAD LEAVES CASES Recommended Assembly Condition * A single-sided phenolic printed circuit board (PCB) is preferred. Double-sided PCB and other materials may cause greater lead stress. Recommended through-hole diameter is 0.9 to 2.0 mm. Leadlength below the PCB should be 1.5 to 2.0 mm, and the clinching angle (angle between the lead and PCB) should be 30 + 10 degrees. If SMT devices and an adhesive are used on the same pcb as these lamps, the adhesive should be cured before the lamps are auto-inserted. If curing must be done after lamp insertion, the cure temperature and time should not exceed 140C, 100 seconds. This is the temperature of the surface normal to the IR source. solder Condition: Preheat: Temperature ramp rate of 2 to 4C per second. Do not exceed 150C delta temperature between preheat and solder temperatures. The maximum time at preheat should not exceed 10 seconds. Solder: 245C maximum, 3 seconds (1.6 mm below seating plane). For technical assistance or the location of your nearest Hewlett-Packard sales office, distributor or representative call: Americas/Canada: 1-800-235-0312 or 408-654-8675 Far East/Australasia: Call your local HP sales office. Japan: (81 3) 3335-8152 Europe: Call your local HP sales office. Data subject to change. Copyright 1997 Hewlett-Packard Co. Printed in U.S.A. 5965-9779E (7/97)