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| H Surface Mount LED Indicator Technical Data HSMD-TX00 HSME-TX00 HSMG-TX00 HSMH-TX00 HSMS-TX00 HSMY-TX00 Features * Compatible with Automatic Placement Equipment * Compatible with Infrared and Vapor Phase Reflow Solder Processes * Packaged in 12 mm or 8 mm tape on 7" or 13" Diameter Reels * EIA Standard Package * Low Package Profile * Nondiffused Package Excellent for Backlighting and Coupling to Light Pipes Description These solid state surface mount indicators are designed with a flat top and sides to be easily handled by automatic placement equipment. A glue pad is provided for adhesive mounting processes. They are compatible with convective IR and vapor phase reflow soldering and conductive epoxy attachment processes. The package size and configuration conform to the EIA-535 BAAC standard specification for case size 3528 tantalum capacitors. The folded leads permit dense placement and provide an external solder joint for ease of inspection. These devices are nondiffused, providing high intensity for applications such as backlighting, light pipe illumination, and front panel indication. Device Selection Guide DH AS AlGaAs Red HSMHT400 T500 T600 T700 High Efficiency Red HSMST400 T500 T600 T700 High Performance Green HSMGT400 T500 T600 T700 Emerald Green HSMET400 T500 T600 T700 Orange HSMDT400 T500 T600 T700 Yellow HSMYT400 T500 T600 T700 Description 12 mm Tape, 7" Reel, 2000 Devices 12 mm Tape, 13" Reel, 8000 Devices 8 mm Tape, 7" Reel, 2000 Devices 8 mm Tape, 13" Reel, 8000 Devices 1-204 5964-9359E Package Dimensions 3.5 0.2 (0.138 0.008) 2.8 0.2 (0.110 0.008) 2.2 NOM. (0.087) 2.7 NOM. (0.106) NOTES: 1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES). 2. THE LEADS ARE COPPER ALLOY, 85% Sn/15% Pb PLATING. CATHODE NOTCH 3.1 NOM. (0.122) 1.9 0.2 (0.075 0.008) 0.7 MIN. (0.028) 0.1 (0.004) NOM. 0.8 0.3 (0.031 0.012) (2 PLACES) 2.2 0.1 (0.087 0.004) 1.3 (0.050) MIN. Tape and Reel Specifications Hewlett Packard surface mount LEDs are packaged tape and reel in accordance with EIA-481A, Taping of Surface Mount Components for Automatic Placement. This packaging system is compatible with tapefed automatic pick and place systems. Each reel is sealed in a vapor barrier bag for added protection. Bulk packaging in vapor barrier bags is available upon special request. USER FEED DIRECTION CATHODE PITCH: 4 mm (0.157 IN.) T T ED LR WA EK HC A P h p REEL DIAMETER: 178 mm (7 IN.) OR 330 mm (13 IN.) CARRIER TAPE WIDTH: 12 mm (0.472 IN.) OR 8 mm (0.315 IN.) 1-205 Absolute Maximum Ratings at TA = 25C DH AS AlGaAs Red 30 300 20 High Efficiency Red 30 90 25 High Perf. Green 30 90 25 Emerald Green 30 90 25 Parameter DC Forward Current[1] Peak Forward Current[2] Average Forward Current[2] LED Junction Temperature Transient Forward Current[3] (10 s Pulse) Reverse Voltage (IR = 100 mA) Operating Temperature Range Storage Temperature Range Reflow Soldering Temperature Convective IR Vapor Phase Orange 30 90 25 Yellow 30 60 20 Units mA mA mA 95 C 500 5 -40 to +85 -20 to +85 mA V C -40 to +85 C 235C Peak, above 185C for 90 seconds. 215C for 3 minutes. Notes: 1. Derate dc current linearly from 50C: For AlGaAs red, high efficiency red, and green devices at 0.67 mA/C. For yellow devices at 0.44 mA/C. 2. Refer to Figure 5 showing Maximum Tolerable Peak Current vs. Pulse duration to establish pulsed operating conditions. 3. The transient peak current is the maximum non-recurring peak current the device can withstand without damaging the LED die and wire bond. The device should not be operated at peak currents above the Absolute Maximum Peak Forward Current. 1-206 Electrical/Optical Characteristics at TA = 25C DH AS AlGaAs Red HSMH-TX00 Parameter Luminous Intensity Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points[1] Peak Wavelength Dominant Wavelength[2] Symbol Iv VF VR 21/2 PEAK d 1/2 s C RJ-pin v 5.0 Min. 9.0 Typ. 17.0 1.8 15.0 120 645 637 20 30 30 180 80 2.2 Max. Units mcd V V deg. nm nm nm ns pF C/W lm/W Time Constant, e-t/s VF = 0, f = 1 MHz Junction-to-Cathode Test Conditions IF = 10 mA IF = 10 mA IR = 100 A Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[3] High Efficiency Red HSMS-TX00 Parameter Luminous Intensity Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points[1] Peak Wavelength Dominant Wavelength[2] Symbol Iv VF VR 21/2 PEAK d 1/2 s C RJ-pin v 5.0 Min. 2.0 Typ. 6.0 1.9 30.0 120 635 626 40 90 11 160 145 2.5 Max. Units mcd V V deg. nm nm nm ns pF C/W lm/W Time Constant, e-t/s VF = 0, f = 1 MHz Junction-to-Cathode Test Conditions IF = 10 mA IF = 10 mA IR = 100 A Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[3] Notes: 1. 1/2 is the off-axis angle where the luminous intensity is half the on-axis value. 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 luminous efficacy in lumens/watt. 1-207 Orange HSMD-TX00 Parameter Luminous Intensity Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points[1] Peak Wavelength Dominant Wavelength[2] Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[3] Symbol Iv VF VR 21/2 PEAK d 1/2 s C RJ-pin v 5.0 Min. 1.5 Typ. 5.0 1.9 30.0 120 600 602 40 260 4 160 380 2.5 Max. Units mcd V V deg. nm nm nm ns pF C/W lm/W Time Constant, e-t/ s VF = 0, f = 1 MHz Junction-to-Cathode Test Conditions IF = 10 mA IF = 10 mA IR = 100 A Yellow HSMY-TX00 Parameter Luminous Intensity Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points[1] Peak Wavelength Dominant Wavelength[2] Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[3] Symbol Iv VF VR 21/2 PEAK d 1/2 s C RJ-pin v 5.0 Min. 2.0 Typ. 5.0 2.0 50.0 120 583 585 36 90 15 160 500 2.5 Max. Units mcd V V deg. nm nm nm ns pF C/W lm/W Time Constant, e-t/ s VF = 0, f = 1 MHz Junction-to-Cathode Test Conditions IF = 10 mA IF = 10 mA IR = 100 A Notes: 1. 1/2 is the off-axis angle where the luminous intensity is half the on-axis value. 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 luminous efficacy in lumens/watt. 1-208 High Performance Green HSMG-TX00 Parameter Luminous Intensity Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points[1] Peak Wavelength Dominant Wavelength[2] Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[3] Symbol Iv VF VR 21/2 PEAK d 1/2 s C RJ-pin v 5.0 Min. 4.0 Typ. 10.0 2.0 50.0 120 570 572 28 500 18 160 595 2.5 Max. Units mcd V V deg. nm nm nm ns pF C/W lm/W Time Constant, e-t/ s VF = 0, f = 1 MHz Junction-to-Cathode Test Conditions IF = 10 mA IF = 10 mA IR = 100 A Notes: 1. 1/2 is the off-axis angle where the luminous intensity is half the on-axis value. 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 luminous efficacy in lumens/watt. Emerald Green HSME-TX00 Parameter Luminous Intensity Forward Voltage Reverse Breakdown Voltage Included Angle Between Half Intensity Points[1] Peak Wavelength Dominant Wavelength[2] Symbol Iv VF VR 21/2 PEAK d 1/2 s C RJ-pin v 5.0 Min. 1.0 Typ. 1.5 2.2 50.0 120 558 560 28 500 52 120 680 2.27 Max. Units mcd V V deg. nm nm nm ns pF C/W lm/W Time Constant, e-t/ s VF = 0, f = 1 MHz Junction-to-Cathode Test Conditions IF = 10 mA IF = 10 mA IR = 100 A Spectral Line Half Width Speed of Response Capacitance Thermal Resistance Luminous Efficacy[3] Notes: 1. 1/2 is the off-axis angle where the luminous intensity is half the on-axis value. 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 luminous efficacy in lumens/watt. 4. Refer to Application Note 1061 for information comparing high performance green with emerald green light output degradation. 1-209 1.0 EMERALD GREEN ORANGE DH 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. DH AS AlGaAs RED 300 280 260 240 220 200 180 160 140 120 100 80 60 40 20 0 HER, ORANGE, YELLOW, HIGH PERFORMANCE GREEN AND EMERALD GREEN 90 80 GREEN EMERALD GREEN I F - FORWARD CURRENT - mA I F - FORWARD CURRENT - mA 70 60 50 40 30 20 10 0 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 HIGH EFFICIENCY RED, ORANGE YELLOW 0 0.5 1.0 1.5 2.0 2.5 3.0 V F - FORWARD VOLTAGE - V V F - FORWARD VOLTAGE - V Figure 2. Forward Current vs. Forward Voltage. HER, ORANGE, YELLOW, HIGH PERFORMANCE GREEN AND EMERALD GREEN 4.0 DH AS AlGaAs RED 3.0 RELATIVE LUMINOUS INTENSITY (NORMALIZED AT 10 mA) RELATIVE LUMINOUS INTENSITY (NORMALIZED AT 10mA) 2.5 3.0 GREEN EMERALD GREEN 2.0 YELLOW 2.0 HIGH EFFICIENCY RED, ORANGE 1.5 1.0 1.0 0.5 0.0 0.0 0 5 10 15 20 25 30 0 F 5 10 15 20 25 30 IF - DC FORWARD CURRENT - mA I - DC FORWARD CURRENT - mA Figure 3. Relative Luminous Intensity vs. Forward Current. 1-210 HER, ORANGE, YELLOW, HIGH PERFORMANCE GREEN AND EMERALD GREEN 1.5 1.4 v - RELATIVE EFFICIENCY (NORMALIZED AT 10 mA) YELLOW 1.3 1.2 1.1 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0 0 10 GREEN HIGH EFFICIENCY RED, ORANGE EMERALD GREEN 20 30 40 50 60 70 80 90 IPEAK - PEAK FORWARD CURRENT - mA Figure 4. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current. HER, ORANGE, YELLOW, HIGH PERFORMANCE GREEN AND EMERALD GREEN Figure 5. Maximum Tolerable Peak Current vs. Pulse Duration (IDC MAX per MAX Ratings). Figure 6. Relative Intensity vs. Angular Displacement. 1-211 |
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