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| H T-13/4 Super Ultra-Bright LED Lamps Technical Data HLMP-8115 HLMP-8205 HLMP-8305 HLMP-8405 HLMP-8505 HLMP-8605 HLMP-8109 HLMP-8209 HLMP-8309 HLMP-8409 HLMP-8509 Features * Very High Intensity * Narrow and Medium Viewing Angles * Untinted, Nondiffused Lens * Choice of Five Colors * Sturdy Leads with Seating Plane Tabs Description These untinted, nondiffused solid state lamps are designed with special internal optics to give a very high luminous intensity within a well defined viewing angle. The LED materials used within these devices is specifically grown to assure the high light output performance these lamps provide. Device Selection Guide LED Color DH AS AlGaAs High Efficiency Red Yellow Orange High Performance Green Emerald Green Part Number HLMP-8115 HLMP-8109 HLMP-8205 HLMP-8209 HLMP-8305 HLMP-8309 HLMP-8405 HLMP-8409 HLMP-8505 HLMP-8509 HLMP-8605 Typical Luminous Intensity (mcd @ 20 mA dc) 1000 500 350 260 350 260 350 260 400 300 75 21/2 Viewing Angle 10 20 10 20 10 20 10 20 10 20 10 2 Package Dimensions Absolute Maximum Ratings at TA = 25C DH AS AlGaAs Red 30 300 [2] Parameter DC Forward Current[1] Peak Forward Current[2] Average Forward Current High Efficiency Red and Orange 30 90 25 500 5 110 -55 to +100 Yellow 20 60 20 500 5 110 High Performance Green/Emerald Green 30 90 25 500 5 110 -20 to +100 Units mA mA mA mA V C C C 20 500 5 110 -20 to +100 Transient Forward Current[3] (10 s Pulse) Reverse Voltage (IR = 100 A) LED Junction Temperature Operating Temperature Range Storage Temperature Range Lead Soldering Temperature [1.6 mm (0.063 in.) from body] -55 to +100 260C for 5 seconds Notes: 1. See Figure 5 for maximum current derating vs. ambient temperature. 2. See Figure 6 for maximum peak current vs. pulse duration and allowable duty factor. 3. The transient peak current is the maximum non-recurring peak current the device can withstand without damaging the LED die and wire bond. Do not operate these lamps at peak currents above the Absolute Maximum Peak Forward Current. 3 Electrical/Optical Characteristics TA = 25C DH AS AlGaAs HLMP-8115/8109 Parameter Luminous Intensity HLMP-8115 HLMP-8109 Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points HLMP-8115 HLMP-8109 Total Luminous Flux Peak Wavelength Dominant Wavelength Speed of Response Capacitance Thermal Resistance Luminous Efficacy[2] [1] Symbol Iv VF VR Min. 500 200 5.0 Typ. 1000 500 1.8 15.0 Max. Units mcd Test Conditions IF = 20 mA IF = 20 mA IR = 100 A 2.2 V V 21/2 d PEAK d 1/2 s C RJ-LEAD v 10 20 120 645 637 20 30 30 210 80 Deg. mlm nm nm nm ns pF C/W lm/W Time Constant, e-t/ VF = 0, f = 1 MHz LED Junction-toCathode Lead s IF = 20 mA Measured at Peak Spectral Line Half Width High Efficiency Red HLMP-8205/8209 Parameter Luminous Intensity HLMP-8205 HLMP-8209 Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points HLMP-8205 HLMP-8209 Total Luminous Flux Peak Wavelength Dominant Wavelength Speed of Response Capacitance Thermal Resistance Luminous Efficacy[2] [1] Symbol Iv VF VR Min. 200 90 5.0 Typ. 350 260 1.9 30.0 Max. Units mcd Test Conditions IF = 20 mA IF = 20 mA IR = 100 A 2.6 V V 21/2 v PEAK d 1/2 s C RJ-LEAD v 10 20 45 635 626 40 90 11 210 145 Deg. mlm nm nm nm ns pF C/W lm/W VF = 0, f = 1 MHz LED Junction-toCathode Lead IF = 20 mA Measured at Peak Spectral Line Half Width 4 Yellow HLMP-8305/8309 Parameter Luminous Intensity HLMP-8305 HLMP-8309 Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points HLMP-8305 HLMP-8309 Total Luminous Flux Peak Wavelength Dominant Wavelength Speed of Response Capacitance Thermal Resistance Luminous Efficacy[2] [1] Symbol Iv VF VR Min. 212 96 5.0 Typ. 350 260 2.1 30.0 Max. Units mcd Test Conditions IF = 20 mA IF = 20 mA IR = 100 A 2.6 V V 21/2 v PEAK d 1/2 s C RJ-LEAD v 10 20 45 583 585 36 90 15 210 500 Deg. mlm nm nm nm ns pF C/W lm/W VF = 0, f = 1 MHz LED Junction-toCathode Lead IF = 20 mA Measured at Peak Spectral Line Half Width Orange HLMP-8405/8409 Parameter Luminous Intensity HLMP-8405 HLMP-8409 Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points HLMP-8405 HLMP-8409 Total Luminous Flux Peak Wavelength Dominant Wavelength[1] Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[2] Symbol Iv VF VR 5.0 Min. 200 90 Typ. 350 260 1.9 30.0 2.6 Max. Units mcd V V Test Conditions IF = 20 mA IF = 20 mA IR = 100 A 21/2 v PEAK d 1/2 s C RJ-LEAD v 10 20 45 600 602 40 280 4 210 380 Deg. mlm nm nm nm ns pF C/W lm/W VF = 0, f = 1 MHz LED Junction-toCathode Lead IF = 20 mA Measured at Peak 5 High Performance Green HLMP-8505/8509 Parameter Luminous Intensity HLMP-8505 HLMP-8509 Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points HLMP-8505 HLMP-8509 Total Luminous Flux Peak Wavelength Dominant Wavelength[1] Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[2] Symbol Iv VF VR Min. 170 111 5.0 Typ. 400 300 2.2 30 Max. Units mcd 3.0 V V Test Conditions IF = 20 mA IF = 20 mA IR = 100 A 21/2 v PEAK d 1/2 s C RJ-LEAD v 10 20 115 568 570 28 260 18 210 595 Deg. mlm nm nm nm ns pF C/W lm/W IF = 20 mA Measured at Peak VF = 0, f = 1 MHz LED Junction-toCathode Lead Notes: 1. The dominant wavelength, d, is derived from the CIE Chromaticity Diagram and represents the color of the device. 2. The radiant intensity, Ie, in watts per steradian, may be found from the equation Ie = Iv/v, where Iv is the luminous intensity in candelas and v is the luminous efficacy in lumens/watt. Emerald Green HLMP-8605[1] Parameter Luminous Intensity HLMP-8605 Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points HLMP-8605 Peak Wavelength Dominant Wavelength[2] Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[3] Symbol Iv VF VR Min. 69 5.0 Typ. 75 2.2 30 Max. Units mcd V V Test Conditions IF = 20 mA IF = 20 mA IR = 100 A 3.0 21/2 PEAK d 1/2 s C RJ-LEAD v 10 558 560 24 3100 35 210 656 Deg. nm nm nm ns pF C/W lm/W Measured at Peak VF = 0, f = 1 MHz LED Junction-toCathode Lead Notes: 1. Please refer to Application Note 1061 for information comparing standard green and emerald green light output degradation. 2. The dominant wavelength, d, is derived from the CIE Chromaticity Diagram and represents the color of the device. 3. The radiant intensity, Ie, in watts per steradian, may be found from the equation Ie = Iv/v, where Iv is the luminous intensity in candelas and v is the luminous efficacy in lumens/watt. 6 1.0 EMERALD GREEN ORANGE AlGaAs RED TA = 25 C RELATIVE INTENSITY HIGH PERFORMANCE GREEN HIGH EFFICIENCY RED 0.5 YELLOW 0 500 550 600 WAVELENGTH - nm 650 700 750 Figure 1. Relative Intensity vs. Wavelength. High Efficiency Red, Orange, Yellow, and High Performance Green 100 IF - FORWARD CURRENT - mA 80 HIGH PERFORMANCE GREEN, EMERALD GREEN HIGH EFFICIENCY RED/ORANGE YELLOW 60 40 20 0 0 1.0 2.0 3.0 4.0 5.0 V F - FORWARD VOLTAGE - V Figure 2. Forward Current vs. Forward Voltage (Non-Resistor Lamp). Figure 3. Relative Luminous Intensity vs. Forward Current. 7 Figure 4. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current. Figure 5. Maximum Forward dc Current vs. Ambient Temperature. Derating Based on TJ MAX = 110 C. Figure 6. Maximum Tolerable Peak Current vs. Pulse Duration. (IDC MAX as per MAX Ratings). H Figure 7. Relative Luminous Intensity vs. Angular Displacement. HLMP-8115/-8X05. Figure 8. Relative Luminous Intensity vs. Angular Displacement. HLMP-8X09. 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: (65) 290-6305 Japan: (81 3) 3331-6111 Europe: Call your local HP sales office listed in your telephone directory. Ask for a Components representative. Data subject to change. Copyright (c) 1996 Hewlett-Packard Co. Obsoletes 5091-8548E Printed in U.S.A. 5964-9370E (4/96) |
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