CB packann T-134 (5 mm) Diffused Solid 5 HLMP-3300 Series State Lamps HLMP-3400 Series HLMP-3500 Series HLMP-3762 HLMP-3862 HLMP-3962 HLMP-D400 Series pew HLMP-D600 Technical Data Features High Intensity * Choice of 4 Bright Colors * Reliable and Rugged * Available on Tape and Reel High Efficiency Red Description Orange This family of T-13/4 lamps is Yellow widely used in general purpose indicator applications. Diffus- ants, tints, and optical design High Performance Green * Popular T-15/4 Diameter Package are balanced to yield superior Selected Minimum light output and wide viewing Intensities angles. Several intensity choices are available in each color for increased design flexibility. e Wide Viewing Angie General Purpose Leads Selection Guide Part Number Minimum Intensity HLMP- Application (med) at 10 mA Color (Material) 3300 General Purpose 2.1 High Efficiency Red (GaAsP on GaP) 3301 High Ambient 4.0 3762 Premium Lamp 8.0 D400 General Purpose 2.1 Orange (GaAsP on GaP) D401 High Ambient 4.0 3400 General Purpose 2.2 Yellow (GaAsP on GaP) 3401 High Ambient 4.0 3862 Premium Lamp 8.0 3502 General Purpose 1.6 Green (GaP) 565 nm 3507 High Ambient 4.2 3962 Premium Lamp 8.0 D600!) General Purpose 1.0 Emerald Green (GaP) 558 nm Note: 1. Please refer to Application Note 1061 for information comparing standard green and emerald green light output degradation. 3-99Package Dimensions \n (ai i 3 - on 06 457 0} t 9191 362) 8431332) 0.89 1 035} 964 1 025) 0 4% 1.018) SQUAHE 25.40 11.00) MIN NOMINAL 127 (0601 NOM. 6.101 2401 659+ 2201 ' CATHODE 2.54 (1001 * NOM. NOTES. 1 ALL DIMENSIONS ARE IN MILLIMETRES IINCHES) 7 AN EPOXY MENISCUS MAY EXTEND ABOUT Trot 940") DOWN THE LEADS. Optical/Electrical Characteristics at Ty = 25C Device Test Symbol Parameter HLMP- Min. | Typ.| Max.| Units Conditions Iy Luminous Intensity High Efficiency Red mcd | Ip=10mA 3300 2.1 3.5 3301 4.0 7.0 3762 8.0 | 12.0 Orange D400 2.1 3.5 D401 4.0 7.0 Yellow 3400 2.2 4.0 3401 4.0 8.0 3862 8.0 12.0 Green 3502 16 24 3507 4.2 5.2 3962 8.0 | 11.0 Emerald Green D600 1.0 3.0 20,2 | Included Angle High Efficiency Red 60 Deg. | Ip=10mA Between Half Orange 60 See Note 1 Luminous Intensity Yellow 60 Points Green 60 Emerald Green 60 Apeak | Peak Wavelength High Efficiency Red 635 nm Measurement Orange 600 at Peak Yellow 583 Green 565 Emerald Green 558 3-100Optical/Electrical Characteristics at T, = 25C (cont.) Device Test Symbol Parameter HLMP- Min. | Typ. | Max.| Units Conditions Adin Spectral Line Halfwidth | HER/Orange 40 am Yellow 36 Green 28 Emerald Green 24 da Dominant Wavelength | High Efficiency Red 626 nm See Note 2 Orange 602 Yellow 585 Green 569 Emerald Green 560 % Speed of Response High Efficiency Red 90 ns Orange 280 Yellow 90 Green 500 Emerald Green 560 Cc Capacitance High Efficiency Red 11 pF Vy = 0; Orange 4 f= 1 MHz Yellow 15 Green 18 Emerald Green 3100 RO9;pry_ | Thermal Resistance All 260 C/W | Junction to Cathode Lead Ve Forward Voltage HER/Orange 19 | 2.4 Vv Ip=10mA Yellow 2.0 2.4 Green 2.1 | 2.7 Emerald Green 2.1 | 2.7 Ve Reverse Breakdown All 5.0 Vv Tp = 100 pA Voltage Nw Luminous Efficacy High Efficiency Red - 145 See Note 3 Orange 380 Watt Yellow - 500 Green 595 Emerald Green 656 Notes: 1. 0 19 is the off-axis angle at which the luminous intensity is half the axial luminous intensity. 2. The dominant wavelength, 44, is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color of the device. 3. Radiant intensity, I,, in Watts/ateradian, may be found from the equation I, = [/n,, where L, is the luminous intensity in candelas and n, is the luminous efficacy in lumens/Watt. 3-101 ve rd i a a ey oa AMPSAbsolute Maximum Ratings at T, = 25C Green/ Parameter HER/Orange Yellow Emerald Green Units Peak Forward Current 90 60 90 mA Average Forward Current!!! 25 20 25 mA DC Currentl2] 30 20 30 mA Power Dissipation!) 135 85 135 mW Reverse Voltage (Ip = 100 pA) 5 5 5 Vv Transient Forward Current! 500 500 500 mA (10 psec Pulse) LED Junction Temperature 110 110 110 C Operating Temperature Range -55 to +100 -55 to +100 -20 to +100 C Storage Temperature Range -55 to +100 Lead Soldering Temperature 260C for 5 seconds [1.6 mm (0.063 in.) from body] Notes: 1. See Figure 5 (Red/Orange), 10 (Yellow), or 15 (Green) to establish pulsed operating conditions. 2. For Red, Orange and Green series derate linearly from 50C at 0.5 mA/C. For Yellow series derate linearly from 50C at 0.2 mA/C, 3. 1.8 mW/C. For Yellow series derate power linearly from 50C at 1.6 mW/C, 4. The transient peak current is the maximum non-recurring peak current that can be applied to the device without damaging the LED die and wirebond. It is not recommended that the device be operated at peak currents beyond the peak forward current listed in the Absolute Maximum Ratings. EMERALO GREEN j Ty 225C | HIGH EFFICIENCY RED 500 550 600 650 700 750 WAVELENGTH nm Figure 1. Relative Intensity vs. Wavelength. 3-102T-134 High Efficiency Red, Orange Diffused Lamps mA ip FORWARD CURRENT Ve FORWARD VOLTAGE ov Figure 2. Forward Current vs. Forward Voltage Characteristics. RATIO OF MAXIMUM TOLERABLE PEAK CURRENT TO MAXIMUM TOLERABLE DC CURRENT feean MAX loc MAX g g g tp PULSE DUAATION us Figure 5. Maximum Tolerable Peak Current ve. Pulse Duration. Ape MAX as per MAX Ratings) RELATIVE LUMINOUS INTENSITY. NORMALIZED AT 1g mA 4 : i i J 0 5 ir 1b 20 0 for DE CURBENT PER LED ina Figure 3. Relative Luminous Intensity ve. DC Forward Current. my 5 a fas wn 2 a fs RELATIVE EFFICHENCY wean ot 9 m 20 3 4 50 60 70 80 90 lopan PEAK CURRENT PER LED oma Figure 4, Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak LED Current. Figure 6. Relative Luminous Intensity vs. Angular Displacement. 3-103tl. FORWARD CURRENT mA T-13/4 Yellow Diffused Lamps 20. 75 30 35 a vo 16 Ve FORWAKU VOLTAGE Vv Figure 7. Forward Current vs. Forward Voltage Characteristics. z apy Ui; 4 a3 5 5 1 5,4 Hi ope. il hee ih 300 Hz reaz 4 TB ao nee | cee ATH zaow Sara E535 x235 3 ee2a zoxa aad oF go 2 fe 4 x x 4 zs =| gly 1 a sla 10 10 100 1000 10,000, tp PULSE DURATION us Figure 10. Maximum Tolerable Peak Current vs. Pulse Duration. (Ipc MAX as per MAX Ratings) RELATIVE LUMINOUS INTENSITY = Y z 8 3 8 Zt we . 2 4 27 o ne w we x 2 5 z 23 z 4g z ee = ceo 8 1, FORWARD CURRENT mA toeae PEAK CURRENT Figure 8. Relative Luminous Intensity vs. Forward Current. Figure 9. Relative Efficiency (Luminous Intensity per Unit Current) va. Peak Current. o og 50 { c os oo i ; o4 / ! f Bo} j i o2 1 : ; off wld | i r 100 Figure 11. Relative Luminous Intensity ve. Angular Displacement. 3-104T-15/4 Green/Emerald Green Diffused Lamps mA ~ FORWARD CURRENT & te 50 Ve - FORWARD VOLTAGE - v Figure 12. Forward Current vs. Forward Voltage Characteristics. RATIO OF MAXIMUM TOLERABLE PEAK CURRENT O MAXIMUM TOLERABLE DC CURRENT Figure 15. Maximum Tolerable Peak Current vs. Pulse Duration. (Ing MAX as per MAX Ratings) RELATIVE LUMINOUS INTENSITY (NORMALIZED AT 10mal o 5 10 1 20 25 30 36 40 (pean - PEAK CURRENT PER LED mA Figure 13. Relative Luminous Intensity ve. DC Forward Current. RELATIVE EFFICIENCY ea as rv) i a ia wn a a o 0. 10 2 30 4 50 60 70 80 90 100 Ipeax- PEAK CURRENT PER LEO - mA Figure 14. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak LED Current. Figure 16. Relative Luminous Intensity vs. Angular Displacement. 3-105