HLMP-Pxxx Series, HLMP-Qxxx Series HLMP-6xxx Series, HLMP-70xx Series Subminiature LED Lamps Data Sheet Description Features Flat Top Package Subminiature flat top package The HLMP-Pxxx Series flat top lamps use an untinted, nondiffused, truncated lens to provide a wide radiation pattern that is necessary for use in backlighting applications. The flat top lamps are also ideal for use as emitters in light pipe applications. - ideal for backlighting and light piping applications Subminiature dome package - diffused dome for wide viewing angle - nondiffused dome for high brightness Dome Packages TTL and LSTTL compatible 5 volt resistor lamps The HLMP-6xxx Series dome lamps for use as indicators use a tinted, diffused lens to provide a wide viewing angle with a high on-off contrast ratio. High brightness lamps use an untinted, nondiffused lens to provide a high luminous intensity within a narrow radiation pattern. Available in six colors Resistor Lamps The HLMP-6xxx Series 5 volt subminiature lamps with built in current limiting resistors are for use in applications where space is at a premium. Lead Configurations All of these devices are made by encapsulating LED chips on axial lead frames to form molded epoxy subminiature lamp packages. A variety of package configuration options is available. These include special surface mount lead configurations, gull wing, yoke lead or Z-bend. Right angle lead bends at 2.54 mm (0.100 inch) and 5.08 mm (0.200 inch) center spacing are available for through hole mounting. For more information refer to Standard SMT and Through Hole Lead Bend Options for Subminiature LED Lamps data sheet. Ideal for space limited applications Axial leads Available with lead configurations for surface mount and through hole PC board mounting Device Selection Guide Part Number: HLMP-xxxx Standard Red DH AS AlGaAs Red High Efficiency Red Orange P005 P105 P205 P102 6000 Yellow High Perf. Green Emerald Green P405 P305 P505 P605 P202 P402 P302 P502 Q100 6300 Q400 6400 6500 Q105 6305 Q405 6405 6505 Q150 7000 7019 7040 Q155 Untinted, Nondiffused, Flat Top A Untinted, Diffused, Flat Top A Q600 Tinted, Diffused B Q605 Untinted, Nondiffused, High Brightness B Tinted, Diffused, Low Current B Nondiffused, Low Current B 6600 6700 6800 Tinted, Diffused, Resistor, 5 V, 10 mA B 6620 6720 6820 Diffused, Resistor, 5 V, 4 mA B Ordering Information HLMX-XXXX-X X X X X Packaging Option Color Bin Selection Max. Iv Bin Min. Iv Bin 4 x 4 Prod. Part Number 2 Device Description[1] Device Outline Drawing Package Dimensions (B) Diffused and Nondiffused (A) Flat Top Lamps 0.50 (0.020) REF. 1.40 (0.055) 1.65 (0.065) 11.68 (0.460) 10.67 (0.420) BOTH SIDES 11.68 (0.460) 10.67 (0.420) BOTH SIDES CATHODE 0.46 (0.018) 0.56 (0.022) ANODE 1.65 (0.065) DIA. 1.91 (0.075) 0.20 (0.008) MAX. 0.50 (0.020) REF. 0.46 (0.018) 0.56 (0.022) ANODE 1.65 (0.065) DIA. 1.91 (0.075) 0.25 (0.010) MAX. NOTE 2 0.20 (0.008) MAX. 2.21 (0.087) 1.96 (0.077) 0.18 (0.007) 0.23 (0.009) 1.14 (0.045) 1.40 (0.055) CATHODE 0.25 (0.010) MAX. NOTE 2 2.21 (0.087) 1.96 (0.077) 0.76 (0.030) R. 0.89 (0.035) 0.94 (0.037) 1.24 (0.049) 2.03 (0.080) 1.78 (0.070) 0.63 (0.025) 0.38 (0.015) 2.44 (0.096) 1.88 (0.074) 2.92 (0.115) MAX. 0.79 (0.031) MAX. 0.18 (0.007) 0.23 (0.009) 2.08 (0.082) 2.34 (0.092) 0.79 (0.031) 0.53 (0.021) 0.63 (0.025) 0.38 (0.015) 2.08 (0.082) 2.34 (0.092) CATHODE STRIPE CATHODE STRIPE NOTES: 1. ALL DIMENSIONS ARE IN MILLIMETRES (INCHES). 2. PROTRUDING SUPPORT TAB IS CONNECTED TO CATHODE LEAD. 3. LEAD POLARITY FOR AlGaAs LAMPS IS OPPOSITE TO THE LEAD POLARITY OF SUBMINIATURE LAMPS USING OTHER TECHNOLOGIES. CATHODE TAB NO. ANODE DOWN. YES. CATHODE DOWN. Figure 1. Proper right angle mounting to a PC board to prevent protruding cathode tab from shorting to anode connection. 3 Absolute Maximum Ratings at TA = 25C Parameter Standard Red DH AS AlGaAs Red High Eff. Red Orange Yellow High Perf. Green Emerald Green Units DC Forward Current[1] 50 30 30 30 20 30 30 mA Peak Forward Current[2] 1000 300 90 90 60 90 90 mA 6 6 6 V DC Forward Voltage (Resistor Lamps Only) 6 Reverse Voltage (IR = 100 A) 5 5 5 5 5 5 5 V Transient Forward Current[3] (10 s Pulse) 2000 500 500 500 500 500 500 mA -40 to +100 -20 to +100 C Operating Temperature Range: Non-Resistor Lamps -55 to +100 Resistor Lamps Storage Temperature Range -40 to +100 55 to +100 -40 to +85 -55 to +100 For Thru Hole Devices Wave Soldering Temperature [1.6 mm (0.063 in.) from body] 260C for 5 seconds For Surface Mount Devices: Reflow Soldering Temperature 260C for 20 seconds -20 to +85 C Notes: 1. See Figure 5 for current derating vs. ambient temperature. Derating is not applicable to resistor lamps. 2. Refer to Figure 6 showing Max. 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 failure. Do not operate these lamps at this high current. 4 Electrical/Optical Characteristics, TA = 25C Standard Red Device HLMP- Parameter Symbol 6000-E00xx 6000-G00xx Luminous Intensity[1] IV P005-F00xx Min. Typ. 0.63 1.2 1.60 3.2 1.0 2.5 Max. Test Conditions mcd IF = 10 mA V IF = 10 mA IR = 100 A Forward Voltage VF 1.4 1.6 All Reverse Breakdown Voltage VR 5.0 12.0 V 6000 Included Angle Between 21/2 90 Deg. P005 Half Intensity Points[2] All 5 2.0 Units 125 Peak Wavelength PEAK 655 nm Dominant Wavelength[3] d 640 nm Spectral Line Half Width 1/2 24 nm Speed of Response s 15 ns Capacitance C 100 pF VF = 0; f = 1 MHz Thermal Resistance RJ-PIN 170 C/W Junction-to-Cathode Lead Luminous Efficacy[4] v 65 lm/W DH AS AlGaAs Red Device HLMP- Min. Typ. P102-F00xx 1.0 20.0 P105-L00xx 10.0 30.0 P105-NP000 25 Q100-M00xx 16 45 25.0 45.0 Q100-N00xx Parameter Luminous Intensity Symbol IV 40 Q105-P00xx 40 Q105-ST000 160 Q150-F00xx 1.0 1.8 Q155-F00xx 1.0 4.0 Forward Voltage VF Q150/Q155 All Reverse Breakdown Voltage VR Included Angle Between Half Intensity Points[2] 21/ 5.0 P105 Q100/Q150 6 Test Conditions mcd IF = 20 mA 125 200 500 IF = 1 mA 1.8 2.2 1.6 1.8 15.0 V IF = 20 mA IF = 1 mA V IR = 100 A 125 2 90 Deg. 28 Q105/Q155 All Units 80 Q100-PQ000 Q100 Max. Peak Wavelength PEAK 645 nm Dominant Wavelength[3] d 637 nm Spectral Line Half Width 1/2 20 nm Speed of Response s 30 ns Exponential Time Constant; e-t/s Capacitance C 30 pF VF = 0; f = 1 MHz Thermal Resistance RJ-PIN 170 C/W Junction-to Cathode Lead Luminous Efficacy[4] v 80 lm/W Measured at Peak High Efficiency Red Device HLMP- Min. Typ. P202-F00xx 1.0 5.0 P205-F00xx 1.0 8.0 P205-JK000 4.0 6300-F00xx 1.0 6300-KL000 Parameter Luminous Intensity[1] Symbol IV Max. Units Test Conditions IF = 10 mA 12.5 10.0 6.3 20.0 mcd 6305-L00xx 10.0 40.0 7000-D00xx 0.4 1.0 IF = 2 mA 6600-G00xx 1.6 5.0 VF = 5.0 Volts 6620-F00xx 1.0 2.0 1.5 1.8 3.0 V IF = 10 mA 9.6 13.0 mA VF = 5.0 V 3.5 5.0 V IR = 100 A All Forward Voltage (Nonresistor Lamps) VF 6600 Forward Current IF 6620 (Resistor Lamps) All Reverse Breakdown Voltage VR Included Angle Between Half Intensity Points[2] 21/ 5.0 P205 6305 125 2 7 28 Deg. 90 All Diffused All 30.0 Peak Wavelength PEAK 635 nm Dominant Wavelength[3] d 626 nm Spectral Line Half Width 1/2 40 nm Speed of Response s 90 ns Capacitance C 11 pF VF = 0; f = 1 MHz Thermal Resistance RJ-PIN 170 C/W Junction-to-Cathode Lead Luminous Efficacy[4] v 145 lm/W Measured at Peak Orange Device HLMP- Min. Typ. P402-F00xx 1.0 4.0 P405-F00xx 1.0 6 P405-JK000 Parameter Luminous Intensity Symbol IV 4.0 Q400-F00xx 1.0 8 Q405-H00xx 2.5 14 Max. Units Test Conditions 12.5 mcd IF = 10 mA 3.0 V IF = 10 mA IR = 100 A Forward Voltage VF 1.5 1.9 Reverse Breakdown Voltage VR 5.0 30.0 V P40x Included Angle Between 21/2 125 Deg. Q40x Half Intensity Points[2] All All 8 90 Peak Wavelength PEAK 600 nm Dominant Wavelength[3] d 602 nm Spectral Line Half Width 1/2 40 nm Speed of Response s 260 ns Capacitance C 4 pF VF = 0; f = 1 MHz Thermal Resistance RJ-PIN 170 C/W Junction-to-Cathode Lead Luminous Efficacy[4] v 380 lm/W Measured at Peak Yellow Device HLMP- Min. Typ. P302-F00xx 1.0 3.0 P305-F00xx 1.0 4.0 6400-F00xx 1.0 9.0 6400-JK000 4.0 6405-J00xx Parameter Luminous Intensity[1] Symbol IV 3.6 Max. Units IF = 10 mA 12.5 20 Test Conditions mcd 6405-MN0xx 16 50 7019-D00xx 0.4 0.6 IF = 2 mA 6700-G00xx 1.4 5.0 VF = 5.0 Volts 6720-F00xx 0.9 2.0 All Forward Voltage (Nonresistor Lamps) VF 2.0 2.4 V IF = 10 mA 6700 Forward Current IF 9.6 13.0 mA VF = 5.0 V 6720 (Resistor Lamps) 3.5 5.0 All Reverse Breakdown Voltage P305 Included Angle Between 6405 Half Intensity Points[2] 5.0 VR 9 V 125 21/ 2 All Diffused All 50.0 28 Deg. 90 Peak Wavelength PEAK 583 nm Dominant Wavelength[3] d 585 nm Spectral Line Half Width 1/2 36 nm Speed of Response s 90 ns Capacitance C 15 pF VF = 0; f = 1 MHz Thermal Resistance RJ-PIN 170 C/W Junction-to-Cathode Lead Luminous Efficacy[4] v 500 lm/W Measured at Peak High Performance Green Device HLMP- Min. Typ. P502-F00xx 1.0 3.0 P505-G00xx 1.6 6.3 6500-F00xx 1.0 7.0 10.0 40.0 7040-D00xx 0.4 0.6 IF = 2 mA 6800-G00xx 1.6 5.0 VF = 5.0 Volts 6820-F00xx 1.0 2.0 6505-L00xx Parameter Luminous Intensity[1] Symbol Iv Max. Units Test Conditions IF = 10 mA mcd All Forward Voltage (Nonresistor Lamps) VF 2.1 2.7 V IF = 10 mA 6800 Forward Current IF 9.6 13.0 mA VF = 5.0 V 6820 (Resistor Lamps) 3.5 5.0 All Reverse Breakdown Voltage V IR = 100 A P505 Included Angle Between 6505 Half Intensity Points[2] VR 50.0 125 21/2 All Diffused All 5.0 28 Deg. 90 Peak Wavelength PEAK 565 nm Dominant Wavelength[3] d 569 nm Spectral Line Half Width 1/2 28 nm Speed of Response s 500 ns Capacitance C 18 pF VF = 0; f = 1 MHz Thermal Resistance RJ-PIN 170 C/W Junction-to-Cathode Lead Luminous Efficacy[4] v 595 lm/W Notes: 1. The luminous intensity for arrays is tested to assure a 2.1 to 1.0 matching between elements. The average luminous intensity for an array determines its light output category bin. Arrays are binned for luminous intensity to allow Iv matching between arrays. 2. 1/2 is the off-axis angle where the luminous intensity is half the on-axis value. 3. Dominant wavelength, d, is derived from the CIE Chromaticity Diagram and represents the single wavelength that defines the color of the device. 4. Radiant intensity, Ie, in watts/steradian, may be calculated from the equation Ie = Iv/v, where Iv is the luminous intensity in candelas and v is the luminous efficacy in lumens/watt. 10 Emerald Green[1] Device HLMP- Parameter Symbol P605-F00xx Q600-F00xx Luminous Intensity IV Q605-F00xx All Forward Voltage VF Reverse Breakdown Voltage VR P605 Included Angle Between 21/2 Q60x Half Intensity Points[2] P605/Q600 Min. Typ. 1.0 1.5 1.0 1.5 1.0 7.5 2.2 5.0 125 Max. 3.0 Units Test Conditions mcd IF = 10 mA V IF = 10 mA V IR = 100 A Deg. 90 Peak Wavelength PEAK 558 nm Dominant Wavelength[3] d 560 nm Spectral Line Half Width 1/2 24 nm Speed of Response s 3100 ns Capacitance C 35 pF VF = 0; f = 1 MHz Thermal Resistance RJ-PIN 170 C/W Junction-to-Cathode Lead Luminous Efficacy[4] V 656 lm/W Measured at Peak Note: 1. Please refer to Application Note 1061 for information comparing standard green and emerald green light output degradation. 11 Figure 1. Relative intensity vs. wavelength. Standard Red and DH AS AlGaAs Red High Efficiency Red, Orange, Yellow, High Performance Green, and Emerald Green 100 FORWARD CURRENT - mA 90 HIGH EFFICIENCY RED/ORANGE 80 70 60 YELLOW 50 40 30 HIGH PERFORMANCE GREEN, EMERALD GREEN 20 10 0 0 0.5 1 1.5 2 2.5 3 3.5 FORWARD VOLTAGE - V Figure 2. Forward current vs. forward voltage (non-resistor lamp). Standard Red, DH As AlGaAs Red Figure 3. Relative luminous intensity vs. forward current (non-resistor lamp). 12 Low Current HER, Orange, Yellow, and High Performance Green, and Emerald Green Standard Red DH As AlGaAs Red HER, Orange, Yellow, and High Performance Green, and Emerald Green Figure 4. Relative efficiency (luminous intensity per unit current) vs. peak current (non-resistor lamps). Figure 5. Maximum forward dc current vs. ambient temperature. Derating based on TJ MAX = 110C (non-resistor lamps). Standard Red HER, Orange, Yellow, and High Performance Green Figure 6. Maximum tolerable peak current vs. pulse duration (IDC MAX as per MAX ratings) (non-resistor lamps). 13 DH As AlGaAs Red Figure 7. Resistor lamp forward current vs. forward voltage. Figure 9. Relative intensity vs. angular displacement. 14 Figure 8. Resistor lamp luminous intensity vs. forward voltage. Ordering Information Color Bin Limits HLMx-XXXX-X X X X X Package Bin Min. Emerald Green 0 Full Distribution 9 552 556 8 555 559 7 558 562 6 561 565 0 Full Distribution 6 561 565 5 564 568 4 567 571 3 570 574 2 573 577 0 Full Distribution 1 581.5 585.0 3 584.0 587.5 Packaging Option Color Bin Selection Green Max. Iv Bin Min. Iv Bin 4 x 4 Prod. Part Number Yellow Intensity Bin Limits Max. 2 586.5 590.0 Bin Min. Max. 4 589.0 592.5 A 0.10 0.20 5 591.5 593.5 B 0.16 0.32 6 591.5 595.0 C 0.25 0.50 7 594.0 597.5 D 0.40 0.80 0 Full Distribution E 0.63 1.25 1 596.5 600.0 F 1.00 2.00 2 599.0 602.5 Orange G 1.60 3.20 3 601.5 604.0 H 2.50 5.00 4 603.8 608.2 J 4.00 8.00 5 606.8 611.2 K 6.30 12.50 6 609.8 614.2 L 10.00 20.00 7 612.8 617.2 M 16.00 32.00 8 615.8 620.2 N 25.00 50.00 P 40.00 80.00 Q 63.00 125.00 R 100.00 200.00 S 160.00 320.00 T 250.00 500.00 U 400.00 800.00 V 630.00 1250.00 W 1000.00 2000.00 X 1600.00 3200.00 Y 2500.00 5000.00 15 Mechanical Option 00 Straight Leads, Bulk Packaging, Quantity of 500 Parts 10 Right Angle Housing, Bulk Packaging, Quantity of 500 Parts 11 Gull Wing Leads, 12 mm Tape on 7 in. Dia. Reel, 1500 Parts per Reel 12 Gull Wing Lead, Bulk Packaging, Quantity of 500 Parts 14 Gull Wing Leads, 12 mm Tape on 13 in. Dia. Reel, 6000 Parts per Reel 21 Yoke Leads, 12 mm Tape on 7 in. Dia. Reel, 1500 Parts per Reel 22 Yoke Leads, Bulk Packaging, Quantity of 500 Parts 24 Yoke Leads, 12 mm Tape on 13 in. Dia. Reel, 6000 Parts per Reel 31 Z-Bend Leads, 12 mm Tape on 7 in. Dia. Reel, 1500 Parts per Reel 32 Z-Bend Leads, Bulk Packaging, Quantity of 500 Parts 34 Z-Bend Leads, 12 mm Tape on 13 in. Dia. Reel, 6000 Parts per Reel 1L 2.54 mm (0.100 inch) Center Lead Spacing, Long Leads; 10.4 mm (0.410 in.) 1S 2.54 mm (0.100 inch) Center Lead Spacing, Short Leads; 3.7 mm (0.145 in.) 2L 5.08 mm (0.200 inch) Center Lead Spacing, Long Leads; 10.4 mm (0.410 in.) 2S 5.08 mm (0.200 inch) Center Lead Spacing, Short Leads; 3.7 mm (0.145 in.) Note: All Categories are established for classification of products. Products may not be available in all categories. Please contact your local Avago representative for further clarification/information. For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright (c) 2005-2012 Avago Technologies. All rights reserved. Obsoletes 5989-1708EN AV02-3609EN - June 12, 2012