HLMP-KB25-M00DD中文资料

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

1-37HDescriptionThese untinted, non-diffused, solid state lamps utilize the latest absorbing/transparent substrate aluminum indium gallium phos-phide (AS/TS AlInGaP) LED tech-nology . These materials have a very high luminous efficiency , capable of producing high light output over a wide range of drive currents. In addition, these LED lamps are at wavelengths ranging from amber to reddish orange and at viewing angles ranging from 7 to 45degrees.Features• Outstanding LED Material Efficiency• High Light Output over a Wide Range of Currents • Low Electrical Power Dissipation• CMOS/MOS Compatible • Colors: 590/592 nm Amber,615/617nm and 622 nm Reddish-Orange• Variety of Packages AvailableApplications• Outdoor Message Boards • Safety Lighting Equipment • Signaling Applications • Emitter for Emitter/Detector Applications• Changeable Message Signs • Portable Equipment • Medical Equipment • Automotive Lighting• Alternative to Incandescent LampsSunPower Series HLMA-CX00 Series HLMA-DX00 Series HLMA-KX00 Series HLMT-CX00 Series HLMT-DX00 SeriesT-13/4 (5 mm), T-1 (3 mm), High Performance AlInGaP LED Lamps Technical Data5963-2323E1-38NOTES:1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).2. THE LEADS ARE MILD STEEL, SOLDER DIPPED.3. AN EPOXY MENISCUS MAY EXTEND ABOUT 1 MM (0.040") DOWN THE LEADS, UNLESS OTHERWISE NOTED.Package Dimensions1.27 (0.050)NOTESABCAbsolute Maximum Ratings at T A = 25°C(T-13/4 Package)DC Forward Current[1,4,5]...........................................................50 mAPeak Forward Current[2]...........................................................200 mATime Average Input Power[2]...................................................103 mWTransient Forward Current[3] (10 µs Pulse)..............................500 mAReverse Voltage (I R = 100 µA).........................................................5 VOperating Temperature Range..........................................-40 to 100°CStorage Temperature.........................................................-40 to 120°CJunction Temperature.................................................................130°CSoldering Temperature..........................................260°C for 5 seconds[1.59 mm (0.06 in.) below seating plane]Notes:1. Derate linearly as shown in Figure 4.2. Any pulsed operation cannot exceed the Absolute Max Peak Forward Current or theMax Allowable Time Average Power as specified in Figure 5.3. The transient peak current is the maximum nonrecurring peak current the device canwithstand without damaging the LED die and wire bonds.4. Drive Currents between 10 and 30 mA are recommended for best long termperformance.5. Operation at currents below 10 mA is not recommended, please contact yourHewlett-Packard sales representative.Absolute Maximum Ratings at T A = 25°C (T-1 Package)DC Forward Current[1,4,5]...........................................................50 mAPeak Forward Current[2]...........................................................200 mATime Average Input Power[2]...................................................103 mWTransient Forward Current[3] (10 µs Pulse)..............................500 mAReverse Voltage (I R = 100 µA).........................................................5 VOperating Temperature Range..........................................-40 to 100°CStorage Temperature.........................................................-40 to 100°CJunction Temperature..................................................................110°CSolder Temperature................................................260°C for 5 seconds[1.59 mm (0.06 in.) below seating plane]Notes:1. Derate linearly as shown in Figure 4.2. Any pulsed operation cannot exceed the Absolute Max Peak Forward Current or theMax Allowable Time Average Power as specified in Figure 5.3. The transient peak current is the maximum nonrecurring peak current the device canwithstand without damaging the LED die and wire bonds.4. Drive Currents between 10 mA and 30 mA are recommended for best long termperformance.5. Operation at currents below 10 mA is not recommended, please contact yourHewlett-Packard sales representative.1-39Optical Characteristics at T A = 25°CTS-AlInGaP T-13/4Notes:1. The luminous intensity, I V, is measured at the peak of the spatial radiation pattern which may not be aligned with the mechanical axisof the lamp package.2. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the device.3. θ1/2 is the off-axis angle where the luminous intensity is 1/2 the peak intensity.4. The luminous intensity, I v, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation patternmay not be aligned with this axis.AS-AlInGaP T-13/4Notes:1. The luminous intensity, I V, is measured at the peak of the spatial radiation pattern which may not be aligned with the mechanical axisof the lamp package.2. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the device.3. θ1/2 is the off-axis angle where the luminous intensity is 1/2 the peak intensity.4. The luminous intensity, I v, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation patternmay not be aligned with this axis.AS-AlInGaP T-1Notes:1. The luminous intensity, I v, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation patternmay not be aligned with this axis.2. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the device.3. θ1/2 is the off-axis angle where the luminous intensity is 1/2 the peak intensity.1-401-41AS-AlInGaP T-1Speed of Forward ReverseCapacitanceResponse Voltage Breakdown C (pF)τs (ns)Part V F (Volts)V R (Volts)V F = 0,Thermal Time ConstantNumber @ I F = 20 mA @ I R = 100 µA f = 1 MHz Resistance e -t/τs HLMA-Typ. Max.Min.Typ.Typ.R θJ-PIN (°C/W)Typ.KL00 1.9 2.452540290 13KH00 1.9 2.45254029013Electrical Characteristics at T A = 25°CTS-AlInGaP T-13/4Speed of Forward ReverseCapacitanceResponse Voltage Breakdown C (pF)τs (ns)Part V F (Volts)V R (Volts)V F = 0,Thermal Time ConstantNumber @ I F = 20 mA @ I R = 100 µA f = 1 MHz Resistance e -t/τs HLMT-Typ. Max.Min.Typ.Typ.R θJ-PIN (°C/W)Typ.CL00 2.0 2.452570210 13CH00 2.0 2.45257021013DL00 2.0 2.45257026013DH00 2.0 2.45257026013AS-AlInGaP T-13/4Speed of Forward ReverseCapacitanceResponse Voltage Breakdown C (pF)τs (ns)Part V F (Volts)V R (Volts)V F = 0,Thermal Time ConstantNumber @ I F = 20 mA @ I R = 100 µA f = 1 MHz Resistance e -t/τs HLMA-Typ. Max.Min.Typ.Typ.R θJ-PIN (°C/W)Typ.CL00 1.9 2.452540210 13CH00 1.9 2.45254021013DL00 1.9 2.45254026013DH00 1.9 2.452540260 13DG00 1.9 2.452540260131-42Figure 2b. Forward Current vs.Forward Voltage, TS-AlInGaP.Figure 3. Relative Luminous Intensity vs. Forward Current. Derating Based on T J MAX.Figure 4a. Maximum DC Current vs.Ambient Temperature for AS T-13/4Lamps. Derating Based on T J MAX =130°C.T A – AMBIENT TEMPERATURE – °C0I F – F O R W A R D C U R R E N T – m A10203040502040608010012014060T A – AMBIENT TEMPERATURE – °C0I F – F O R W A R D C U R R E N T – m A10203040502040608010012014060Figure 1. Relative Intensity vs. Wavelength.WAVELENGTHR E L A T I V E I N T E N S I T Y1.00.50Figure 2a. Forward Current vs.Forward Voltage, AS-AlInGaP.I F – F O R W A R D C U R R E N T – m A1.00V F – FORWARD VOLTAGE – V2.520012080 1.52.0160 3.0402060100140180I F – F O R W A R D C U R R E N T – m A1.5V F – FORWARD VOLTAGE – V3.01006040 2.02.580 3.520103050709020T A – AMBIENT TEMPERATURE – °C 51535050304510050I F – F O R W A R D C UR R E N T – m A10204090602530407080100504020100I A V G – A V E R A G E C U R R E N T – m AI PEAK – PEAK FORWARD CURRENT – mA30Figure 4c. Maximum Forward Current vs. Ambient Temperature for T-1Lamps. Derating Based on T J Max = 110 °C.Figure 5. Maximum Average Current vs. Peak Forward Current.Figure 4b. Maximum DC Current vs.Ambient Temperature for TS T-13/4Lamps. Derating Based on T J MAX =130°C. 2.52.01.51.00.001050204030I F – DC FORWARD CURRENT – mAR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )0.51-43N O R M A L I Z E D I N T E N S I T Y1.00.90.80.70.60.50.40.30.20.120°16°12°8°4°0°4°8°12°16°20°θ – ANGULAR DISPLACEMENT – DEGREES18°14°10°6°2°2°6°10°14°18°Figure 6. Normalized Luminous Intensity vs. Angular Displacement,HLMT-CH00/CL00.θ – ANGULAR DISPLACEMENT – DEGREESN O R M A L I Z E D I N T E N S I T Y1.00.90.80.70.60.50.40.30.20.1100°90°80°70°60°50°40°30°20°10°0°10°20°30°40°50°60°70°80°90°100°Figure 8. Normalized Luminous Intensity vs. Angular Displacement, HLMA-KH00/-KL00.Figure 7. Normalized Luminous Intensity vs. Angular Displacement,HLMA-DG00/-DH00/-DL00.N O R M A L I Z E D I N T E N S I T Y1000θ – ANGULAR DISPLACEMENT – DEGREES80605070202018103040161412108426246810121416182090。

AgilentT-13/4 (5 mm), T-1 (3 mm),High Intensity, Double Heterojunction AlGaAs Red LED LampsData SheetHLMP-D101/D105, HLMP-K101/K105DescriptionThese solid state LED lamps utilize newly developed doubleheterojunction (DH) AlGaAs/GaAs material technology. This LED material has outstanding lightoutput efficiency over a wide rangeFeatures• Exceptional brightness • Wide viewing angle• Outstanding material efficiency • Low forward voltage • CMOS/MOS compatible • TTL compatible • Deep red colorApplications• Bright ambient lighting conditions • Moving message panels • Portable equipment • General useof drive currents. The color is deep red at the dominantwavelength of 637 nanometres.These lamps may be DC or pulse driven to achieve desired light output.Package DimensionsA B CSelection GuideLuminous IntensityIv (mcd) at 20 mA2θ1/2[1]Package Package Description Device HLMP-Min.Typ.Max.Degree Outline T-1 3/4 Red Tinted Diffused D10135.270.0–65AD101-J00xx35.270.0–65AD101-JK0xx35.270.0112.865AT-1 3/4 Red Untinted Non-diffused D105138.0240.0–24BD105-M00xx138.0240.0–24BD105-NO0xx200.0290.0580.024BT-1 Red Tinted Diffused K10122.045.0–60CK101-100xx22.045.0–60CK101-IJ0xx22.045.070.460CT-1 Red Untinted Non-diffused K10535.265.0–45CK105-J00xx35.265.0–45CK105-KL0xx56.4110.0180.445CNote:1. θ1/2 is the off axis angle from lamp centerline where the luminous intensity is 1/2 the on-axis value.Part Numbering SystemHLMP - x x xx - x x x xxMechanical Option00: Bulk01: Tape & Reel, Crimped Leads02: Tape & Reel, Straight LeadsA1: Right Angle Housing, Uneven Leads, T1A2: Right Angle Housing, Even Leads, T1B1: Right Angle Housing, Uneven Leads, T-1 3/4B2: Right Angle Housing, Even Leads, T-1 3/4DD, UQ: Ammo PackColor Bin Options0: Full Color Bin DistributionMaximum Iv Bin Options0: Open (no max. limit)Others: Please refer to the Iv Bin TableMinimum Iv Bin OptionsPlease refer to the Iv Bin TableLens Type01: Tinted, Diffused05: Untinted, NondiffusedColor Options1: AlGaAs RedPackage OptionsD: T-1 3/4K: T-1Absolute Maximum Ratings at T A = 25°CParameter ValuePeak Forward Current[1,2]300 mAAverage Forward Current[2]20 mADC Current[3]30 mAPower Dissipation87 mWReverse Voltage (I R = 100 µA) 5 VTransient Forward Current (10 µs Pulse)[4]500 mALED Junction Temperature110°COperating Temperature Range-20 to +100°C Storage Temperature Range-55 to +100°C Wave Soldering Temperature [1.59 mm (0.063 in.) from body]250°C for 3 seconds Lead Solder Dipping Temperature [1.59 mm (0.063 in.) from body]260°C for 5 seconds Notes:1.Maximum I PEAK at f = 1 kHz, DF = 6.7%.2.Refer to Figure 6 to establish pulsed operating conditions.3.Derate linearly as shown in Figure 5.4.The transient peak current is the maximum non-recurring peak current the device can withstand without damaging the LED die and wire bonds. It isnot recommended that the device be operated at peak currents beyond the Absolute Maximum Peak Forward Current.Electrical/Optical Characteristics at T A = 25°CSymbol Description Min.Typ.Max.Unit Test ConditionV F Forward Voltage 1.8 2.2V I F = 20 mAV R Reverse Breakdown Voltage 5.015.0V I R = 100 µAλp Peak Wavelength645nm Measurement at Peakλd Dominant Wavelength637nm Note 1∆λ1/2Spectral Line Halfwidth20nmτS Speed of Response30ns Exponential TimeConstant, e-t/T SC Capacitance30pF V F = 0, f = 1 MHzRθJ-PIN Thermal Resistance260[3]°C/W Junction to Cathode Lead210[4]290[5]ηV Luminous Efficacy80Im/W Note 2Notes:1.The dominant wavelength, λd, is derived from the CIE chromaticity diagram and represents the color of the device.2.The radiant intensity, I e, in watts per steradian, may be found from the equation I e = l V/ηV, where I V is the luminous intensity in candelas and ηV isluminous efficacy in lumens/watt.3.HLMP-D101.4.HLMP-D105.5.HLMP-K101/-K105.Figure 3. Relative luminous intensity vs. dc forward current.Figure 4. Relative efficiency vs. peak forward current.Figure 7. Relative luminous intensity vs. angular displacement. HLMP-D101.Figure 8. Relative luminous intensity vs. angular displacement. HLMP-K101.Intensity Bin LimitsIntensity Range (mcd)Color Bin Min.Max.Red I24.839.6J39.663.4K63.4101.5L101.5162.4M162.4234.6N234.6340.0O340.0540.0P540.0850.0Q850.01200.0R1200.01700.0S1700.02400.0T2400.03400.0U3400.04900.0V4900.07100.0W7100.010200.0X10200.014800.0Y14800.021400.0Z21400.030900.0Maximum tolerance for each bin limit is ± 18%.Mechanical Option MatrixMechanical Option Code Definition00Bulk Packaging, minimum increment 500 pcs/bag01Tape & Reel, crimped leads, minimum increment 1300 pcs (T-1 3/4)/1800 pcs (T-1) 02Tape & Reel, straight leads, minimum increment 1300 pcs (T-1 3/4)/1800 pcs (T-1) A1Right Angle Housing, uneven leads, minimum increment 500 pcs/bagA2Right Angle Housing, even leads, minimum increment 500 pcs/bagB1Right Angle Housing, uneven leads, minimum increment 500 pcs/bagB2Right Angle Housing, even leads, minimum increment 500 pcs/bagDD Ammo Pack, straight leads in 2K incrementUQ Ammo Pack, horizontal leads in 2K incrementNote:All categories are established for classification of products. Products may not be available in all categories. Please contact your local Agilent representative for further clarification/information./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. Obsoletes 5968-1440ENovember 12, 20045988-2230EN。

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

HLMP-RL20, HLMP-SL20Precision Optical Performance Amber New 4mm Superwide Oval LEDData SheetDescriptionThe Precision Optical Performance Oval LED is specifically designed for variable message signs and passenger infor-mation signs. The oval shaped radiation pattern and high luminous intensity ensure that these devices are excellent for wide field of view outdoor applications where a wide viewing angle and readability in sunlight are essential.Features• Well defined spatial radiation pattern • High brightness material • Available in amber– Amber AlInGaP 590nm • Superior resistance to moisture • Typical viewing angle 60° x 120°• Standoff PackageApplications• Variable message signs • Commercial outdoor advertisingNotes:All dimensions in millimeters (inches).Package DimensionsPackage Drawing APackage Drawing BPart Numbering SystemDevice Selection GuidePart NumberColor and Dominant Wavelength l d (nm) TypLuminous Intensity Iv (mcd) at 20 mA-MinLuminous Intensity Iv (mcd) at 20 mA-MaxPackage DrawingHLMP-RL20-MP0DD Amber 5905201150A HLMP-SL20-MP0DDAmber 5905201150BTolerance for each intensity limit is ± 15%.Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2. The optical axis is closely aligned with the package mechanical axis.Note:Please refer to AB 5337 for complete information about part numbering system.Packaging OptionDD: Ammo pack 00 : BulkColor Bin Selection0: Full color bin distributionMaximum Intensity BinRefer to Intensity Bin Limit TableMinimum Intensity BinRefer to Intensity Bin Limit TableColorL: Amber 590PackageR: 4mm Oval 60° x 120°, ParallelS: 4mm Oval 60° x 120°, PerpendicularElectrical / Optical Characteristics T A = 25°CParameterSymbolMin.Typ.Max.UnitsTest ConditionsForward Voltage V F 1.80 2.022.40V I F = 20 mA Reverse Voltage V R 5V I R = 100 µA Dominant Wavelength [1]l d 584.5594.5nm I F = 20 mAPeak Wavelength l PEAK 594nm Peak of Wavelength of Spectral Distribution at I F = 20 mA Thermal Resistance R θJ-PIN 240°C/W LED Junction-to-Cathode Lead Luminous Efficacy [2]Amber ηV 480lm/W Emitted Luminous Flux/Emitted Radiant Flux Luminous Flux ϕv 500mlm I F = 20 mALuminous Efficiency [3]ηe12lm/WEmitted Luminous Flux/Electrical Power I F = 20 mANotes:1. The dominant wavelength is derived from the chromaticity Diagram and represents the color of the lamp.2. The radiant intensity, I e in watts per steradian, may be found from the equation Ie = I V /ηV where I V is the luminous intensity in candelas and ηV is the luminous efficacy in lumens/watt.3. ηe = ϕV / I F x V F , where ϕV is the emitted luminous flux, I F is electrical forward current and V F is the forward voltage.Absolute Maximum Ratings T A = 25°CParameterAmberUnitDC Forward Current [1]50mA Peak Forward Current [2]100mA Average Forward Current 30mA Reverse Voltage (I R = 100 µA) 5V LED Junction Temperature 130°C Operating Temperature Range -40 to +100°C Storage Temperature Range-40 to +100°CNotes:1. Derate linearly as shown in Figure 4.2. Duty Factor 30%, frequency 1KHz.Figure 1. Relative Intensity vs Wavelength Figure 2. Forward Current vs Forward VoltageFigure 3. Relative Intensity vs Forward Current Figure 4. Maximum Forward Current vs Ambient TemperatureFigure 5. Representative Radiation Pattern – Major Axis Figure 6. Representative Radiation Pattern – Minor AxisT A - AMBIENT TEMPERATURE - °CI F - F O R W A R D C U R R E N T - m A0.00.10.20.30.40.50.60.70.80.91.0500550600650700WAVELENGTH - nmR E L A T I V E I N T E N S I T Y10203040500123FORWARD VOLTAGE - VF O R W A R D C U R R E N T - m A5101520253035404550550204060801001200.511.5201020304050DC FORWARD CURRENT - mAR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )0.10.20.30.40.50.60.70.80.91-90-60-300306090ANGULAR DISPLACEMENT - DEGREESN O R M A L I Z E D I N T E N S I T Y0.10.20.30.40.50.60.70.80.91-90-60-300306090ANGULAR DISPLACEMENT - DEGREESN O R M A L I Z E D I N T E N S I T YIntensity Bin Limit TableBin Name Min.Max. M520680 N680880 P8801150 Q11501500 Tolerance for each bin limit is ± 15%Color Bin LimitBin ID Min.Max. 1584.5587.0 2587.0589.5 4589.5592.0 6592.0594.5 Tolerance for each bin limit is ±1.0 nmPrecautions:Lead Forming:•The leads of an LED lamp may be preformed or cut to length prior to insertion and soldering on PC board.•For better control, it is recommended to use proper tool to precisely form and cut the leads to applicable length rather than doing it manually.•If manual lead cutting is necessary, cut the leads after the soldering process. The solder connection forms a mechanical ground which prevents mechanical stress due to lead cutting from traveling into LED package. This is highly recommended for hand solder operation, as the excess lead length also acts as small heat sink. Soldering and Handling:•Care must be taken during PCB assembly and soldering process to prevent damage to the LED component. •LED component may be effectively hand soldered to PCB. However, it is only recommended under unavoidable circumstances such as rework. The closest manual soldering distance of the soldering heat source (soldering iron’s tip) to the body is 1.59mm. Soldering the LED using soldering iron tip closer than 1.59mmmight damage the LED.•ESD precaution must be properly applied on the soldering station and personnel to prevent ESD damage to the LED component that is ESD sensitive. Do refer to Avago application note AN 1142 for details. The soldering iron used should have grounded tip to ensure electrostatic charge is properly grounded.•Recommended soldering condition:Wave Soldering [1, 2]Manual Solder DippingPre-heat temperature105°C Max.–Preheat time60 sec Max–Peak temperature250°C Max.260°C Max.Dwell time 3 sec Max. 5 sec MaxNote:1) Above conditions refers to measurement with thermocouplemounted at the bottom of PCB.2) It is recommended to use only bottom preheaters in order toreduce thermal stress experienced by LED.•Wave soldering parameters must be set and maintained according to the recommended temperature and dwell time. Customer is advised to perform daily check on the soldering profile to ensure that it is always conforming to recommended soldering conditions. Note:1. PCB with different size and design (component density) will havedifferent heat mass (heat capacity). This might cause a change intemperature experienced by the board if same wave solderingsetting is used. So, it is recommended to re-calibrate the solderingprofile again before loading a new type of PCB.2. Avago Technologies’ high brightness LED are using high efficiencyLED die with single wire bond as shown below. Customer isadvised to take extra precaution during wave soldering to ensurethat the maximum wave temperature does not exceed 250°C andthe solder contact time does not exceeding 3sec. Over-stressingthe LED during soldering process might cause premature failureto the LED due to delamination.the lead frame is achieved through conductive paste.•Any alignment fixture that is being applied during wave soldering should be loosely fitted and should not apply weight or force on LED. Non metal material is recommended as it will absorb less heat during wave soldering process.•At elevated temperature, LED is more susceptible to mechanical stress. Therefore, PCB must allowed to cool down to room temperature prior to handling, which includes removal of alignment fixture or pallet.•If PCB board contains both through hole (TH) LED and other surface mount components, it is recommended that surface mount components be soldered on the top side of the PCB. If surface mount need to be on the bottom side, these components should be soldered using reflow soldering prior to insertion the TH LED.•Recommended PC board plated through holes (PTH) size for LED component leads.LED componentlead size DiagonalPlated throughhole diameter0.45 x 0.45 mm(0.018x 0.018 inch)0.636 mm(0.025 inch)0.98 to 1.08 mm(0.039 to 0.043 inch)0.50 x 0.50 mm(0.020x 0.020 inch)0.707 mm(0.028 inch)1.05 to 1.15 mm(0.041 to 0.045 inch)•Over-sizing the PTH can lead to twisted LED after clinching. On the other hand under sizing the PTH can cause difficulty inserting the TH LED.Refer to application note AN5334 for more information about soldering and handling of high brightness TH LED lamps.Example of Wave Soldering Temperature Profile for TH LEDAmmo Packs Drawing25020015010050TIME (SECONDS)Recommended solder: Sn63 (Leaded solder alloy)SAC305 (Lead free solder alloy)Flux: Rosin uxSolder bath temperature: 245°C± 5°C (maximum peak temperature = 250°C)Dwell time: 1.5 sec - 3.0 sec (maximum = 3sec)Note: Allow for board to be su ciently cooled to room temperature before exerting T E M P E R A T U R E (°C )mechanical force.Packaging Box for Ammo PacksNote: The dimension for ammo pack is applicable for the device with standoff and without standoff.Packaging Label:(i) Avago Mother Label: (Available on packaging box of ammo pack and shipping box)For product information and a complete list of distributors, please go to our web site: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.Data subject to change. Copyright © 2005-2014 Avago Technologies. All rights reserved. AV02-2258EN - July 18, 2014Acronyms and Definition:BIN:(i) Color bin only or VF bin only(Applicable for part number with color bins but without VF bin OR part number with VF bins and no color bin)OR(ii) Color bin incorporated with VF Bin(Applicable for part number that have both color bin and VF bin)Example:(i) Color bin only or VF bin only BIN: 2 (represent color bin 2 only) BIN: VB (represent VF bin “VB” only)(ii) Color bin incorporate with VF BinVB: VF bin “VB”2: Color bin 2 only(ii) Avago Baby Label (Only available on bulk packaging)。

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

HLMP-KW50T-1 Precision Optical Performance White LEDData SheetPackage DimensionsNotes :1. All dimensions are in milimetres /inches.2. Epoxy meniscus may extend about 1mm (0.040”) down the leads.CAUTION : These devices are Class 1C ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Avago Technologies Application Note AN-1142 for additional details.NOM.DescriptionThis high intensity white LED lamp is based on InGaN material technology. A blue LED die is coated by a phosphor to produce white. The typical resulting color is described by the coordinates x = 0.27, y = 0.25 using the 1931 CIE Chromaticity Diagram.This T-1 lamp is untinted, nondiffused, and incorpo-rate precise optics which produce well defined spatial radiation patterns at specific viewing cone angle.Features• Highly Luminous White Emission • Viewing Angle : 45°Applications• Indoor Electronic Signs and Signals • Small Area Illumination • Legend Backlighting • General Purpose IndicatorsBenefit• Reduced Power Consumption, Higher Reliability, and Increased Optical/Mechanical Design Flexibility Compared to Incandescent Bulbs and Other Alternative White Light SourcesDevice Selection GuidePart Number Typical Viewing Angle Min Iv (mcd) @ 20mA Max Iv (mcd) @ 20mA Typical Chromaticity Coordinates (x,y)HLMP-KW50-QS00045°115025000.27, 0.25 Notes:1. The chromaticity coordinates are derived from the CIE 1931 Chromaticity Diagram and represent the perceived color of the device.2. θ1/2 is the off-axis angle where the luminous intensity is ½ the peak intensity.3. Tolerance for intensity bin limit is +/- 15%Absolute Maximum Ratings (T A = 25°C)Parameter Value UnitsDC Forward Current [1]30mAPeak Forward Current [2]100mAPower Dissipation111mWReverse Voltage (I R = 10μA)5VLED Junction Temperature110°COperating Temperature Range-40 to +85°CStorage Temperature Range-40 to +100°CNotes:1. Derate linearly as shown in Figure 5.2. Duty factor 10%, Frequency = 1KHz.Electrical Characteristics (T A = 25°C)Forward Voltage, V F (V) @ I F = 20 mA Reverse Breakdown,VR (V) @ I R = 10μACapacitance,C (pF), V F = 0,f = 1 MHzThermal ResistanceRθJ-PIN (°C/W)Typ.Max.Min.Typ.Typ.3.2 3.7570290WAVELENGTH –nmR E L A T I V E L U M I N O U S I N T E N S I T Y3807801.00.606805804800.40.80.201.50.3R E L A T I V E L U M I N O U S I N T EN S I T YFORWARD CURRENT -mA1.20.90.6-0.0100.02500.005-0.005Y -C O O R D I N A T E SX-COORDINATES(X,Y)VALUES @20mA REFERENCE TO (0,0)0.0150.0100.020F O R W A R D C U R R E N T -m A0FORWARD VOLTAGE -V2015353051025I F M A X .-M A X I M U M F O R W A R D C U R R E N T -m AT A -AMBIENT TEMPERATURE -C4080353010206010015255200302010Figure 1. Relative Intensity vs Wavelength Figure 2. Forward Current vs Forward VoltageFigure 3. Relative Iv vs. Forward Current Figure 4. Chromaticity shift vs. currentFigure 5. Maximum Fwd. Current vs TemperatureFigure 6. Spatial Radiation Pattern00.20.40.60.81.0SPATIAL DISPLACEMENT -DEG.R E L A T I V E I N T E N S I T YIntensity Bin Limits (mcd at 20 mA) Bin Min.Max.Q11501500R15001900S1******* Tolerance for each bin limit is ± 15%.Color Bin Limit TablesRank Limits(Chromaticity Coordinates)1xy0.3300.3600.3300.3180.3560.3510.3610.3852xy0.2870. 2950.2960.2760.3300.3180.3300.3393xy0.2640.2670.2800.2480.2960.2760.2830.3054 xy0.2830.3050.2870.2950.3300.3390.3300.360Tolerance for each color bin limit is ± 0.01Color Bin Limits with Respect to CIE 1931 Chromaticity Diagram0.260.30.340.38X-COORDINATEY-COORDINATENote:1. Bin categories are established for classification of products. Products may not be available in allbin categories. Please contact your Avago representative for information on currently availableRelative Light Output vs. Junction Temperature0.1110T J-JUNCTION TEMPERATURE-°CRELATIVELIGHTOUTPUT(NORMALIZEDATTJ=25ºC)InGaN DevicePrecautions:Lead Forming:• The leads of an LED lamp may be preformed or cut to length prior to insertion and soldering on PC board.• For better control, it is recommended to use proper tool to precisely form and cut the leads to applicable length rather than doing it manually.• If manual lead cutting is necessary, cut the leads after the soldering process. The solder connection forms a mechanical ground which prevents mechanical stress due to lead cutting from traveling into LED package. This is highly recommended for hand solder operation, as the excess lead length also acts as small heat sink.Soldering and Handling:• Care must be taken during PCB assembly and soldering process to prevent damage to the LED component. • LED component may be effectively hand soldered to PCB. However, it is only recommended under unavoidable circumstances such as rework. The closest manual soldering distance of the soldering heat source (soldering iron’s tip) to the body is 1.59mm. Soldering the LED using soldering iron tip closer than1.59mm might damage the LED.• ESD precaution must be properly applied on the soldering station and personnel to prevent ESD damage to the LED component that is ESD sensitive. Do refer to Avago application note AN 1142 for details. The soldering iron used should have grounded tip to ensure electrostatic charge is properly grounded.• Recommended soldering condition:WaveSoldering [1, 2]Manual Solder DippingPre-heat temperature 105 °C Max.-Preheat time 60 sec Max -Peak temperature 250 °C Max.260 °C Max.Dwell time3 sec Max.5 sec MaxNote:1) Above conditions refers to measurement with thermocouple mounted at the bottom of PCB.2) It is recommended to use only bottom preheaters in order to reduce thermal stress experienced by LED.• Wave soldering parameters must be set and maintained according to the recommended temperature and dwell time. Customer is advised to perform daily check on the soldering profile to ensure that it is always conforming to recommended soldering conditions.Note: Electrical connection between bottom surface of LED die and the lead frame is achieved through conductive paste.• Any alignment fixture that is being applied during wave soldering should be loosely fitted and should not apply weight or force on LED. Non metal material is recommended as it will absorb less heat during wave soldering process.• At elevated temperature, LED is more susceptible to mechanical stress. Therefore, PCB must allowed to cool down to room temperature prior to handling, which includes removal of alignment fixture or pallet.• If PCB board contains both through hole (TH) LED and other surface mount components, it is recommended that surface mount components be soldered on the top side of the PCB. If surface mount need to be on the bottom side, these components should be soldered using reflow soldering prior to insertion the TH LED.• Recommended PC board plated through holes (PTH) size for LED component leads.LED component lead sizeDiagonalPlated through hole diameter0.45 x 0.45 mm (0.018x 0.018 inch)0.636 mm (0.025 inch)0.98 to 1.08 mm (0.039 to 0.043 inch)0.50 x 0.50 mm (0.020x 0.020 inch)0.707 mm (0.028 inch)1.05 to 1.15 mm (0.041 to 0.045 inch)• Over-sizing the PTH can lead to twisted LED after clinching. On the other hand under sizing the PTH can cause difficulty inserting the TH LED.Note:1. PCB with different size and design (component density) will have different heat mass (heat capacity). This might cause a change in temperature experienced by the board if same wave soldering setting is used. So, it is recommended to re-calibrate the soldering profile again before loading a new type of PCB.2. Avago Technologies’ high brightness LED are using high efficiency LED die with single wire bond as shown below. Customer is advised to take extra precaution during wave soldering to ensure that the maximum wave temperature does not exceed 250°C and the solder contact time does not exceeding 3sec. Over-stressing the LED during soldering process might cause premature failure to the LED due to delamination.Avago Technologies LED configurationExample of Wave Soldering Temperature Profile for TH LED25020015050TIME (MINUTES)Recommended solder:Sn63(Leaded solder alloy)SAC305(Lead free solder alloy)Flux:Rosin fluxSolder bath temperature:245°C±5°C (maximum peak temperature =250°C)Dwell time:1.5sec -3.0sec (maximum =3sec)Note:Allow for board to be sufficiently cooled to room temperature before exerting mechanical force.T E M P E R A T U R E (°C )Packaging Box for Ammo PacksNote: For InGaN device, the ammo pack packaging box contains ESD logo.Packaging Label(i) Avago Mother Label: (Available on packaging box of ammo pack and shipping box)Acronyms and Definition:BIN:(i) Color bin only or VF bin only(Applicable for part number with color bins but without VF bin OR part number with VF bins and no color bin)OR(ii) Color bin incorporated with VF Bin(Applicable for part number that have both color bin and VF bin)(ii) Avago Baby Label (Only available on bulk packaging)Example:(i) Color bin only or VF bin only BIN: 2 (represent color bin 2 only) BIN: VB (represent VF bin “VB” only)(ii) Color bin incorporate with VF BinVB: VF bin “VB”2: Color bin 2 onlyDISCLAIMER: AVAGO’S PRODUCTS AND SOFTWARE ARE NOT SPECIFICALLY DESIGNED, MANUFAC-TURED OR AUTHORIZED FOR SALE AS PARTS, COMPONENTS OR ASSEMBLIES FOR THE PLANNING, CON-STRUCTION, MAINTENANCE OR DIRECT OPERATION OF A NUCLEAR FACILITY OR FOR USE IN MEDICAL DEVICES OR APPLICATIONS. CUSTOMER IS SOLELY RESPONSIBLE, AND WAIVES ALL RIGHTS TO MAKE CLAIMS AGAINST AVAGO OR ITS SUPPLIERS, FOR ALL LOSS, DAMAGE, EXPENSE OR LIABILITY IN CONNEC-TION WITH SUCH USE.For product information and a complete list of distributors, please go to our web site: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies Limited in the United States and other countries.Data subject to change. Copyright © 00 - 008 Avago Technologies Limited. All rights reserved. Obsoletes 989- 1 EN AV0 -0 EN - April 8, 008。

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

Features•Well-defined spatial radiation pattern •Viewing angles:Major axis 120˚Minor axis 60˚•High luminous output •AlInGaP II (brightest) intensity level•Colors:472 nm blue 526 nm green 630 nm red 592 nm amber•Superior resistance to moisture •UV resistant epoxy Benefits•Viewing angle designed for wide field of view applicaion •Superior performance in outdoor environments Applications •Full color signsCAUTION: The Blue and Green LEDs are Class 1 ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Agilent Application Note AN-1142 for additional details.Agilent HLMP-SL11, HLMP-RL11,HLMP-SD11, HLMP-RD11, HLMP-RB11,HLMP-RM11 4 mm Oval Precision Optical Performance Best Value AlInGaP and InGaN LampsData SheetHigh efficiency LED materials are used in these lamps: Higherperformance of Aluminum Indium Gallium Phosphide (AlInGaP II)for Red and Amber color and Indium Gallium Nitride (InGaN)for Blue and Green. Each lamp is made with an advanced optical grade epoxy offering superior high temperature and high moisture resistance in outdoor applications. The package epoxy contains both UV-A and UV-B inhibitors to reduce the effects of long term exposure to direct sunlight.Designers can select parallel or perpendicular orientation. Both lamps are available in tinted version.DescriptionThese Precision Optical Performance Oval LEDs arespecifically designed for Full Color/Video and Passenger Information signs. The Oval shaped radiation pattern (60˚ x 120˚) and highluminous intensity ensure that these devices are excellent for wide field of view outdoor applications where a wide viewing angle and readability in sunlight are essential. These lamps have very smooth, matched radiation patterns ensuringconsistent color mixing in full color applications, message uniformity across the viewing angle of the sign.Selection Guide for AlInGaP IIColor and Luminous DominantIntensity,Wavelength λd I v (mcd)Leads with Leadframe Package Part Number(nm) Typ.Min.Stand-Offs Orientation Drawing HLMP-SL11-H0000Amber 592180Yes Perpendicular A HLMP-RL11-H0000Amber 592180Yes ParallelB HLMP-SD11-J0000Red 630240Yes Perpendicular A HLMP-RD11-J0000Red 630240YesParallelBPackage DimensionsSelection Guide for InGaNColor and Luminous DominantIntensity,Wavelength λd I v (mcd)Leads with Leadframe Package Part Number(nm) Typ.Min.Stand-Offs Orientation Drawing HLMP-RB11-D0000Blue 47265Yes Parallel B HLMP-RB11-H0000Blue 472180Yes Parallel B HLMP-RM11-H0000Green 526180Yes Parallel B HLMP-RM11-M0000Green 526520Yes Parallel BA∅B∅(0.016+0.004–0.000)(0.018+0.004–0.002)DIMENSIONS ARE IN MILLIMETERS (INCHES).Absolute Maximum Ratings at T A = 25˚CParameter Blue and Green Red and AmberDC Forward Current[1]30 mA50 mAPeak Pulsed Forward Current100 mA100 mAAverage Forward Current30 mA30 mAReverse Voltage (I R = 100 µA) 5 V 5 VPower Dissipation120 mW120 mWLED Junction Temperature100˚C110˚COperating Temperature Range–40˚C to +80˚C–40˚C to +100˚CStorage Temperature Range–40˚C to +100˚C–40˚C to +120˚CWave Soldering Temperature250˚C for 3 sec.250˚C for 3 sec.Note:1. Derate linearly as shown in Figure 6 and 7.Electrical/Optical Characteristics at T A = 25˚CParameter Symbol Min.Typ.Max.Units Test ConditionsTypical Viewing AngleMajor2θ1/2120degMinor60Forward Voltage V F I F = 20 mAAmber (λd = 592 nm) 2.15 2.5VRed (λd = 630 nm) 2.00 2.5Blue (λd = 472 nm) 3.5 4.0Green (λd = 526 nm) 3.5 4.0Reverse VoltageAmber, Red V R520V I R = 100 µABlue, Green5—I R = 10 µAPeak Wavelength Peak of WavelengthAmber (λd = 592 nm)λpeak594nm of Spectral Distribution Red (λd = 630 nm)639at I F = 20 mABlue (λd = 472 nm)470Green (λd = 526 nm)524Spectral Halfwidth Wavelength WidthAmber (λd = 592 nm)∆λ1/217nm at Spectral Distribution Red (λd = 630 nm)171/2 Power Point atBlue (λd = 472 nm)35I F = 20 mAGreen (λd = 526 nm)47Capacitance V F = 0, F = 1 MHzAmber, Red C40pFBlue, Green43Luminous Efficacy Emitted LuminousAmber (λd = 592 nm)ηv500lm/W Power/Emitted Radiant Red (λd = 630 nm)155Power at I F = 20 mABlue (λd = 472 nm)75Green (λd = 526 nm)520Thermal Resistance RθJ-PIN240˚C/W LED Junction-to-CathodeLeadNotes:1. 2θ1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.2.The radiant intensity, I e in watts per steradian, may be found from the equation I e = I v/ηv where I v is the luminous intensity in candelas and ηv isthe luminous efficacy in lumens/watt.3.The luminous intensity is measured on the mechanical axis of the lamp package.Figure 1. Relative intensity vs. wavelength.Figure 2. Amber, red forward current vs.forward voltage.Figure 3. Blue, green forward current vs.forward voltage.Figure 4. Amber, red relative luminous intensity vs. forward current.Figure 5. Blue, green relative luminous intensity vs. forward current.Figure 6. Amber, red maximum forward Figure 7. Blue, green maximum forward WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.00.5I F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – V03015I F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – V 4.02.42.83.21020352.03.6525R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )00I F – FORWARD CURRENT – mA 20402.01.0500.51.52.53010R E L A T I V E L U M I N O US I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )I F – FORWARD CURRENT – mAI F – F O R W A R DC U R R E N T – m AT A – AMBIENT TEMPERATURE – °CI F – F O R W A R D C U R R E N T – m AT A – AMBIENT TEMPERATURE – °CFigure 8a. Representative spatial radiation pattern for major axis.Figure 8b. Representative spatial radiation pattern for minor axis.R E L A T I V E I N T E N S I T Y1.00ANGULAR DISPLACEMENT – DEGREES0.80.60.2-900.4-60-30154590-1530-7575-45600R E L A T I V E I N T E N S I T YANGULAR DISPLACEMENT – DEGREESIntensity Bin Limits (mcd at 20 mA)Bin Name Min.Max.Bin Name Min.Max.D6585J240310E85110K310400F110140L400520G140180M520680H180240Tolerance for each bin limit is ± 15%.Note:1.Bin categories are established for classification of products. Products may not be available inall bin categories.Color Bin Limits (nm at 20 mA)BlueColor Range (nm)Bin ID Min.Max.1460.0464.02464.0468.03468.0472.04472.0476.05476.0480.0Tolerance for each bin limit is ± 2 nm.GreenColor Range (nm)Bin ID Min.Max.1520.0524.02524.0528.03528.0532.04532.0536.05536.0540.0Tolerance for each bin limit is ± 0.5 nm.AmberColor Range (nm)Bin ID Min.Max.1584.5587.02587.0589.54589.5592.06592.0594.5Tolerance for each bin limit is ± 0.5 nm.Note:1.All bin categories are established forclassification of products. Products may not beavailable in all bin categories. Please contactyour Agilent representatives for further/semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. Obsoletes 5988-3135ENAugust 12, 2004。

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

HLMP资料元器件交易网T-13/4 (5 mm) Precision OpticalPerformance AlInGaP LEDLampsData SheetFeaturesWell Defined SpatialRadiation PatternsViewing Angles: 6°, 15°,23°, 30°High Luminous Output Colors:590 nm Amber605 nm Orange615 nm Reddish-Orange626 nm RedHigh OperatingTemperature:TJLED=+130°CSuperior Resistance toMoisturePackage Options:With or Without Lead Stand-OffsBenefitsViewing Angles MatchTraffic Management SignRequirementsColors Meet Automotive andPedestrian SignalSpecificationsSuperior Performance inOutdoor Environments Suitable for Autoinsertiononto PC BoardsApplicationsTraffic Management:Traffic SignalsPedestrian SignalsWork Zone Warning LightsVariable Message Signs Commercial OutdoorAdvertising:SignsMarquees Automotive:Exterior and Interior LightsDescriptionThese Precision Optical Perform-ance AlInGaP LEDs providesuperior light output for excellentreadability in sunlight andareextremely reliable. AlInGaP LEDtechnology provides extremelystable light output over longperiods of time. Precision OpticalPerformance lamps utilize thealuminum indium gallium phos-phide (AlInGaP) technology.These LED lamps are untinted,nondiffused, T-13/4 packagesincorporating second generationoptics producing well definedspatial radiation patterns atspecific viewing cone angles.SunPower SeriesHLMP-ELxxHLMP-EJxxHLMP-EHxxHLMP-EGxx These lamps are made with anadvanced optical grade epoxy,offering superior high tempera-ture and high moisture resistanceperformance in outdoor signaland sign applications. The highmaximum LED junction tempera-ture limit of +130°C enables hightemperature operation in brightsunlight conditions. The packageepoxy contains both uv-a anduv-b inhibitors to reduce theeffects of long term exposure todirect sunlight.These lamps are available in twopackage options to give thedesigner flexibility with devicemounting.Device Selection GuideTypicalViewingAngle2θ1/2(Deg.)Color andDominantWavelength(nm), Typ.LuminousIntensity Iv (mcd) [1,2]@ 20 mAMin.Max.***-********-*****3600HLMP-EL10-WZ000***-********-********-*****6200HLMP-EL10-X1000HLMP-EJ10-*****MP-EJ10-X1000HLMP-EJ10-Y2000HLMP-EH10-*****MP-EH10-*****MP-EH10-*****MP-EH10-X1000HLMP-EH10-Y2000HLMP-EG10-*****MP-EG10-*****MP-EG10-X1000***-********-********-********-********-********-********-*****8000HLMP-EG10-Y20008000********-*****0**********8400********-*****0*************-*****0********-*****08300*****4100*****1000Lamps Without Standoffson Leads(Outline Drawing A)HLMP-EL08-*****MP-EL08-VYK00*HLMP-EL08-VXK00*HLMP-EL08-VX400**HLMP-EL08-*****MP-EL08-*****MP-EL08-XZ400**Lamps With Standoffson Leads(Outline Drawing B)HLMP-EL10-VY000Amber 590HLMP-EL08-*****MP-EL08-XZK00*HLMP-EL08-*****MP-EL08-XYK00*HLMP-EL08-X1K00*HLMP-EL08-X1000 6°Orange 605HLMP-EJ08-*****MP-EJ08-X1000HLMP-EJ08-Y2000HLMP-EH08-*****MP-EH08-VY000Red-Orange 615HLMP-EH08-*****MP-EH08-X1000HLMP-EH08-Y2000HLMP-EG08-*****MP-EG08-*****MP-EG08-WZ000Red 626HLMP-EG08-X1000HLMP-EG08-*****MP-EG08-Y1000HLMP-EG08-Y2000Notes:1. The luminous intensity is measured on the mechanical axis ofthe lamp package.2. The optical axis is closely aligned with the package mechanical axis.3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Part numbers in bold are recommended for new designs.*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.**HLMP-xLxx-xx400 are selected to amber color bin 4 only.Device Selection Guide (Continued)TypicalViewingAngle2θ1/2(Deg.)Color andDominantWavelength(nm), Typ.Lamps Without Standoffson Leads(Outline Drawing A)HLMP-EL15-*****MP-EL15-*****MP-EL15-QRK00*HLMP-EL15-QS000Amber 590HLMP-EL15-QS400**HLMP-EL15-QSK00*HLMP-EL15-QT00015°HLMP-EL15-QTK00*HLMP-EL15-*****MP-EJ15-PS000Orange 605Red-Orange 615HLMP-EJ15-*****MP-EJ15-*****MP-EH15-*****MP-EH15-*****MP-EG15-PS000Red 626HLMP-EG15-*****MP-EG15-*****MP-EL24-*****MP-EL24-*****MP-EL24-*****MP-EL24-PSK00*HLMP-EL24-PR400**HLMP-EL24-PQK00*Amber 59023°HLMP-EL24-*****MP-EL24-QRK00*HLMP-EL24-*****MP-EL24-QSK00*HLMP-EL24-QS400**HLMP-EL24-*****MP-EL24-QTK00* HLMP-EL26-*****MP-EL26-*****MP-EL26-*****MP-EG17-*****MP-EG17-*****MP-EJ17-*****MP-EJ17-*****MP-EH17-*****MP-EH17-*****MP-EL17-*****MP-EL17-QT000Lamps With Standoffson Leads(Outline Drawing B)HLMP-EL17-PS000LuminousIntensity Iv (mcd) [1,2]@ 20 mAMin.Max.***-********-********-********-******************-*************-********-********-********-********-********-********-********-********-********-********-********-********-*****4800********-*****0********-********-*****03700 Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2. The optical axis is closely aligned with the package mechanical axis.3. The dominant wav elength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Part numbers in bold are recommended for new designs.*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.**HLMP-xLxx-xx400 are selected to amber color bin 4 only.Device Selection Guide (Continued)TypicalViewingAngle2θ1/2(Deg.)Color andDominantWavelength(nm), Typ.Orange 605Lamps Without Standoffson Leads(Outline Drawing A)HLMP-EJ24-*****MP-EJ24-RU000Red-Orange 61523Red 626HLMP-EH24-*****MP-EH24-*****MP-EG24-*****MP-EG24-*****MP-EG24-*****MP-EL30-*****MP-EL30-*****MP-EL30-*****MP-EL30-PQK00*Amber 590HLMP-EL30-*****MP-EL30-PR400**HLMP-EL30-PRK00*HLMP-EL30-*****MP-EL30-PSK00*30°Orange 605HLMP-EJ30-*****MP-EJ30-*****MP-EJ30-*****MP-EH30-MQ000Red-Orange 615HLMP-EH30-*****MP-EH30-*****MP-EG30-*****MP-EG30-*****MP-EG30-NQ000Red 626HLMP-EG30-*****MP-EG30-*****MP-EG30-*****MP-EG30-PS000HLMP-EG32-*****MP-EG32-*****MP-EG32-*****MP-EJ32-*****MP-EJ32-*****MP-EH32-*****MP-EH32-*****MP-EH32-*****MP-EL32-PS000Lamps With Standoffson Leads(Outline Drawing B)HLMP-EJ26-*****MP-EJ26-*****MP-EH26-*****MP-EH26-*****MP-EH26-*****MP-EG26-*****MP-EG26-*****MP-EG26-*****MP-EL32-*****MP-EL32-NR000LuminousIntensity Iv (mcd) [1,2]@ 20 mAMin.Max.1000******************-********-********-********-********-********-********-*****765***-********-********-********-**********0********-*****02900*****0*****01010*****0*****0Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2. The optical axis is closely aligned with the package mechanical axis.3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Part numbers in bold are recommended for new designs.*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.**HLMP-xLxx-xx400 are selected to amber color bin 4 only.Part Numbering SystemHLMP--xxMechanical Options00: Bulk PackagingDD: Ammo Pack YY: Flexi-Bin; Bulk PackagingZZ: Flexi-Bin; Ammo PackColor Bin Selections0: No color bin limitation4: Amber color bin 4 only K: Amber color bins 2 and 4 onlyMaximum Intensity Bin0: No Iv bin limitationMinimum Intensity BinViewing Angle Lead Stand Offs08: 6 deg without lead stand offs10: 6 deg with lead stand offs15: 15 deg without lead stand offs17: 15 deg with lead standoffs24: 23 deg without lead stand offs26: 23 deg with lead stand offs30: 30 deg without lead stand offs32: 30 deg with lead stand offsColorG: 626 nm RedH: 615 nm Red-OrangeJ: 605 nm OrangeL: 590 nm AmberPackageE: 5 mm RoundPackage DimensionsAB(0.039)(0.039)NOTES:1. ALL *****ONS ARE IN *****TERS (INCHES).2. LEADS ARE MILD STEEL, SOLDER DIPPED.3. TAPERS SHOWN AT TOP OF LEADS (BOTTOM OF LAMP *****) *****E AN EPOXY *****S THAT MAY EXTEND ABOUT 1 mm (0.040 in.) DOWN THE LEADS.4. *****NDED PC BOARD HOLE *****RS: LAMP ***** A ***** STAND-OFFS: FLUSH *****G AT BASE OF LAMP ***** = 1.143/1.067 (0.044/0.042).LAMP ***** B WITH STAND-OFFS: *****G AT LEAD STAND-OFFS = 0.965/0.889 (0.038/0.035).5. FOR DOME ***** ABOVE LEAD STAND-OFF ***** PLANE, d, LAMP ***** B, SEE TABLE.PART NO.HLMP-XX10HLMP-XX26HLMP-XX32d12.37 ± 0.25 (0.487 ± 0.010)(0.489 ± 0.010)12.52 ± 0.25 (0.493 ± 0.010)11.96 ± 0.25 (0.471 ± 0.010)Absolute Maximum Ratings at TA = 25°CDC Forward Current[1,2,3] (50)mAPeak Pulsed Forward Current[2,3] (100)mAAverage Forward Current (30)mAReverse Voltage (IR = 100 A).........................................................5 VLED Junction Temperature..........................................................130°COperating Temperature..............................................-40°C to +100°CStorage Temperature..................................................-40°C to +120°CDip/Drag Soldering Temperature...........................260°C for 6 secondsThrough-the-Wave Preheat Temperature......................................145°CThrough-the-Wave Solder Temperature.................245°C for 3 seconds[1.59 mm (0.060 in.) below seating plane]Notes:1. Derate linearly as shown in Figure 4.2. For long term performance with minimal light output degradation, drive currentsbetween 10 mA and 30 mA are recommended. For more information on recommendeddrive conditions, please refer to Application Brief I-024 (5966-3087E).3. Operating at currents below 1 mA is not recommended. Please contact your localrepresentative for further information.Electrical/Optical Characteristics at TA = 25°CParameterForward VoltageAmber (λd = 590 nm)Orange (λd = 605 nm)Red-Orange (λd = 615 nm)Red (λd = 626 nm)Reverse VoltagePeak Wavelength:Amber (λd = 590 nm)Orange (λd = 605 nm)Red-Orange (λd = 615 nm)Red (λd = 626 nm)Spectral Halfwidth SymbolMin.Typ.2.021.981.941.***-********-*****17Max.UnitsTest ConditionsIF = 20 mAVFVRλPEAK λ1/252.4VVnmIF = 100 APeak of Wavelength ofSpectral Distributionat IF = 20 mAWavelength Width atSpectral Distribution1/2 Power Point atIF = 20 mAExponential TimeConstant, e-t/τsVF = 0, f = 1 MHzLED Junction-to-CathodeLeadEmitted LuminousPower/Emitted RadiantPowernmSpeed of ResponseCapacitanceThermal ResistanceLuminous EfficacyAmber (λd = 590 nm)Orange (λd = 605 nm)Red-Orange (λd = 615 nm)Red (λd = 626 nm)τsCRθJ-PIN***-*****nspF°C/Wηv***-*****0150lm/WNote:1. The radiant intensity, Ie, in watts per steradian, may be found from the equation Ie = Iv/ηv, where Iv is the luminous intensity incandelas and ηv is the luminous efficacy in lumens/watt.*****E *****TYCURRENT C mA*****GTH C nmVF C ***** ***** C VFigure 1. Relative Intensity vs. Peak Wavelength.Figure 2. Forward Current vs.Forward Voltage.3.0*****E *****S *****TY(*****ZED AT 20 mA)2.52.01.51.00.50IF C ***** ***** C mA***-*****IF C DC ***** ***** C mATA C ***** *****TURE C °CFigure 3. Relative Luminous Intensityvs. Forward Current.Figure 4. Maximum Forward Currentvs. Ambient Temperature. DeratingBased on TJMAX = 130°C.**********E *****TY C %***-********-*****0-25-20-15-10-55101520θ C ***** *****EMENT C *****Figure 5. Representative Spatial Radiation Pattern for 6° ViewingAngle Lamps.元器件交易网*****%80C *****60ETN50I *****30LER*****-25-20-15-10-5510152025θ C ***** *****EMENT C *****Figure 6. Representative Spatial Radiation Pattern for 15° ViewingAngle Lamps.*****%80C *****60ETN50I *****30LER*****-25-20-15-10-55101520θ C ***** *****EMENT C *****Figure 7. Representative Spatial Radiation Pattern for 23° ViewingAngle Lamps.*****%80C *****60ETN50I *****30LER*****-25-20-15-10-5510152025θ C ***** *****EMENT C *****Figure 8. Representative Spatial Radiation Pattern for 30° ViewingAngle Lamps.Intensity Bin Limits(mcd at 20 mA)BinNameMin.Max.K*****L*****M*****N*****P***-*****Q***-*****R***-*****S***-*****T***-*****U***-*****V***-*****W***-*****X***-*****Y***-*****0Z*************** **********Tolerance for each bin limit is ± 15%.Amber Color Bin Limits(nm at 20 mA)BinNameMin.Max.1584.5587.02587.0589.*****.5592.06592.0594.5Tolerance for each bin limit is± 0.5 nm.Note:1.Bin categories are established forclassification of products. Productsmay not be available in all bincategories.元器件交易网Data subject to change.Copyright 2001 Agilent Technologies, Inc.August 13, 2001Obsoletes 5968-4744E (11/99)5988-0524EN。

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

Selection GuideLuminous Intensity Iv (mcd) Part Number Package Viewing Angle Min.Max.HLMP-KB45-A00xx T-14030–HLMP-DB25-B00xx T-1 3/42540–Part Numbering SystemHLMP - x x xx - x x x xxMechanical Option00: Bulk02: Tape & Reel, Straight LeadsDD: Ammo PackColor Bin Options0: Full Color Bin DistributionMaximum Iv Bin Options0: Open (no max. limit)Minimum Iv Bin OptionsPlease refer to the Iv Bin TableViewing Angle25: 25 degrees45: 40 degreesColor OptionsB: Blue 462 nmPackage OptionsD: T-1 3/4 (5 mm)K: T-1 (3 mm)Absolute Maximum Ratings at T A = 25˚CParameter Blue UnitsPeak Forward Current70mADC Current[1]30mAReverse Voltage (I R = 100 µA)5VTransient Forward Current[2]350mA(10 µsec Pulse)LED Junction Temperature115˚COperating Temperature–20 to +80˚CStorage Temperature–30 to +100˚CLead Soldering Temperature 260°C for 5 seconds[1.6 mm (0.063 in.) from body]Notes:1.Derate linearly from 50 °C as shown in Figure 6.2.The transient peak current is the maximum non-recurring peak current that can beapplied to the device without damaging the LED die and wirebond. It is notrecommended that this device be operated at peak currents above the AbsoluteMaximum Peak Forward Current.Optical Characteristics at T A = 25˚CLuminous Color,Viewing Intensity Dominant Peak Angle I V (mcd)Wavelength Wavelength 2θ1/2[2]@ I F = 20 mAλd [1] (nm)λPEAK (nm)Degrees Part Number Typ.Typ.Typ.HLMP-DB25-B00xx 40 10046242625HLMP-KB45-A00xx 30 4546242640Min. Typ.Notes:1.The dominant wavelength, λd , is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color of the device.2. θ1/2 is the off-axis angle at which the luminous intensity is half of the axial luminous intensity.Electrical Characteristics at T A = 25˚CThermal Forward Reverse ResistanceVoltage Breakdown Speed Capacitance R θJ-PIN (°C/W)V F (Volts)V R (Volts)Response C (pF), V F = 0,Junction to Part@ I F = 20 mA @ I R = 100 µA τs (ns) f = 1 MHz Cathode Lead Number Typ. Max. Min. Typ.Typ.Typ.Typ.HLMP-DB25-B00xx 4.0 5.0 5.0 3050097260HLMP-KB45-A00xx4.05.05.0 3050097290Figure 1. Relative Intensity vs.Wavelength.Figure 3. Relative Intensity vs. Peak Forward Current (300 µs pulse width, 10 ms period).Figure 2. Forward Current vs.Forward Voltage.605030200351040214I F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – V 1.01.61.2R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )I P – PEAK FORWARD CURRENT – mA204060801.4305070WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.00.5350550700400600450500650Soldering/CleaningCleaning agents from the ketone family (acetone, methyl ethyl ketone, etc.) and from thechlorinated hydrocarbon family (methylene chloride,trichloroethylene, carbon tetrachloride, etc.) are notrecommended for cleaning LED parts. All of these varioussolvents attack or dissolve the encapsulating epoxies used to form the package of plastic LED parts.For information on soldering LEDs, please refer to Application Note 1027.Figure 8. Relative Luminous Intensity vs. Angular Displacement for HLMP-KB45.Figure 7. Relative Luminous Intensity vs. Angular Displacement for HLMP-DB25.Figure 6. Maximum DC Forward Current vs. Ambient Temperature.Derating Based on T J Max. = 115 °C.Figure 5. Relative Luminous Intensity vs. Forward Current.Figure 4. Forward Current vs.Forward Voltage.R A T I O O F P E A K C U R R E N T T O T E M P E R A T U R E D E R A T E D D C C U R R E N TPULSE WIDTH (SECONDS)1.20.4R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )I F – DC FORWARD CURRENT – mA01020350.851525300.30.20.10.50.60.70.91.01.1I F – F O R W A R D C U R R E N T – m A D C0T A – AMBIENT TEMPERATURE – °C3070352010105030805152520406090Intensity Bin LimitsIntensity Range (mcd)Bin Min.Max.A30.040.0B40.050.0C50.065.0D65.085.0E85.0110.0F110.0140.0G140.0180.0H180.0240.0J240.0310.0K310.0400.0L400.0520.0M520.0680.0N680.0880.0Color Bin Limits(nm at 20 mA)Blue nm @ 20 mABin ID Min.Max.1460.0464.02464.0468.03468.0472.04472.0476.05476.0480.0Tolerance for each bin limit will be ±0.5nm.Mechanical Option MatrixMechanical Option Code Definition00Bulk Packaging, minimum increment 500 pcs/bag02Tape & Reel, straight leads, minimum increment 1300 pcs/bagDD Ammo Pack, straight leads with minimum incrementNote:All categories are established for classification of products. Products may not be available in all categories. Please contact your local Agilent representative for further clarification/information./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (408) 654-8675Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2003 Agilent Technologies, Inc. Obsoletes 5988-2226ENMay 12, 20035988-9507EN。

T-13/4 (5 mm) Precision Optical Performance AlInGaP LED LampsData SheetFeatures• Well Defined Spatial Radiation Patterns• Viewing Angles: 6°, 15°, 23°, 30°• High Luminous Output• Colors:590 nm Amber605 nm Orange615 nm Reddish-Orange626 nm Red• High Operating Temperature:T J LED=+130°C• Superior Resistance to Moisture• Package Options:With or Without Lead Stand-OffsBenefits• Viewing Angles Match Traffic Management Sign Requirements• Colors Meet Automotive and Pedestrian Signal Specifications• Superior Performance in Outdoor Environments• Suitable for Autoinsertion onto PC Boards Applications• Traffic Management:Traffic SignalsPedestrian SignalsWork Zone Warning LightsVariable Message Signs• Commercial OutdoorAdvertising:SignsMarquees• Automotive:Exterior and Interior LightsDescriptionThese Precision Optical Perform-ance AlInGaP LEDs providesuperior light output for excellentreadability in sunlight and areextremely reliable. AlInGaP LEDtechnology provides extremelystable light output over longperiods of time. Precision OpticalPerformance lamps utilize thealuminum indium gallium phos-phide (AlInGaP) technology.These LED lamps are untinted,nondiffused, T-13/4 packagesincorporating second generationoptics producing well definedspatial radiation patterns atspecific viewing cone angles.SunPower SeriesHLMP-ELxxHLMP-EJxxHLMP-EHxxHLMP-EGxxThese lamps are made with anadvanced optical grade epoxy,offering superior high tempera-ture and high moisture resistanceperformance in outdoor signaland sign applications. The highmaximum LED junction tempera-ture limit of +130°C enables hightemperature operation in brightsunlight conditions. The packageepoxy contains both uv-a anduv-b inhibitors to reduce theeffects of long term exposure todirect sunlight.These lamps are available in twopackage options to give thedesigner flexibility with devicemounting.Device Selection GuideTypicalViewing Color and Luminous Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2] 2θ1/2Wavelength on Leads on Leads@ 20 mA (Deg.)[4](nm), Typ.[3] (Outline Drawing A)(Outline Drawing B)Min.Max.HLMP-EL08-VY000HLMP-EL10-VY000360013800HLMP-EL08-VYK00*360013800HLMP-EL08-VXK00*360010700HLMP-EL08-VX400**360010700HLMP-EL08-VX000360010700HLMP-EL08-WZ000HLMP-EL10-WZ000470018400HLMP-EL08-XZ400**620018400 Amber 590HLMP-EL08-XZ000620018400HLMP-EL08-XZK00*620018400HLMP-EL08-XY000620013800HLMP-EL08-XYK00*620013800HLMP-EL08-X1K00*620024100HLMP-EL08-X1000HLMP-EL10-X1000620024100 6°[5]HLMP-EJ08-WZ000HLMP-EJ10-WZ000470018400 Orange 605HLMP-EJ08-X1000HLMP-EJ10-X1000620024100HLMP-EJ08-Y2000HLMP-EJ10-Y2000800031000HLMP-EH08-UX000HLMP-EH10-UX000275010700HLMP-EH08-VY000HLMP-EH10-VY000360013800 Red-Orange 615HLMP-EH08-WZ000HLMP-EH10-WZ000470018400HLMP-EH08-X1000HLMP-EH10-X1000620024100HLMP-EH08-Y2000HLMP-EH10-Y2000800031000HLMP-EG08-VW00036008300HLMP-EG08-VY000HLMP-EG10-VY000360013800HLMP-EG08-WZ000HLMP-EG10-WZ000470018400 Red 626HLMP-EG08-X1000HLMP-EG10-X1000620024100HLMP-EG08-YZ000800018400HLMP-EG08-Y1000800024100HLMP-EG08-Y2000HLMP-EG10-Y2000800031000 Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2.The optical axis is closely aligned with the package mechanical axis.3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Part numbers in bold are recommended for new designs.*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.Device Selection Guide (Continued)TypicalViewing Color and Luminous Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2] 2θ1/2Wavelength on Leads on Leads@ 20 mA (Deg.)[4](nm), Typ.[3] (Outline Drawing A)(Outline Drawing B)Min.Max.HLMP-EL15-PS000HLMP-EL17-PS0007652900HLMP-EL15-QR00010002200HLMP-EL15-QRK00*10002200HLMP-EL15-QS00010002900 Amber 590HLMP-EL15-QS400**10002900HLMP-EL15-QSK00*10002900HLMP-EL15-QT000HLMP-EL17-QT00010003700 15°HLMP-EL15-QTK00*10003700HLMP-EL15-RU000HLMP-EL17-RU00013004800HLMP-EJ15-PS0007652900 Orange 605HLMP-EJ15-RU000HLMP-EJ17-RU00013004800HLMP-EJ15-SV000HLMP-EJ17-SV00016506300 Red-Orange 615HLMP-EH15-QT000HLMP-EH17-QT00010003700HLMP-EH15-RU000HLMP-EH17-RU00013004800HLMP-EG15-PS0007652900 Red 626HLMP-EG15-QT000HLMP-EG17-QT00010003700HLMP-EG15-RU000HLMP-EG17-RU00013004800HLMP-EL24-MQ0004501730HLMP-EL24-NR000HLMP-EL26-NR0005902200HLMP-EL24-PS000HLMP-EL26-PS0007652900HLMP-EL24-PSK00*7652900HLMP-EL24-PR400**7652200HLMP-EL24-PQK00*7651730 Amber 590HLMP-EL24-QR00010002200HLMP-EL24-QRK00*10002200 23°HLMP-EL24-QS00010002900HLMP-EL24-QSK00*10002900HLMP-EL24-QS400**10002900HLMP-EL24-QT000HLMP-EL26-QT00010003700HLMP-EL24-QTK00*10003700 Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2.The optical axis is closely aligned with the package mechanical axis.3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Device Selection Guide (Continued)TypicalViewing Color and Luminous Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2] 2θ1/2Wavelength on Leads on Leads@ 20 mA (Deg.)[4](nm), Typ.[3] (Outline Drawing A)(Outline Drawing B)Min.Max.Orange 605HLMP-EJ24-QT000HLMP-EJ26-QT00010003700HLMP-EJ24-RU000HLMP-EJ26-RU00013004800HLMP-EH26-PS0007652900 Red-Orange 615HLMP-EH24-QT000HLMP-EH26-QT00010003700 23ºHLMP-EH24-RU000HLMP-EH26-RU00013004800HLMP-EG24-PS000HLMP-EG26-PS0007652900 Red 626HLMP-EG24-QT000HLMP-EG26-QT00010003700HLMP-EG24-RU000HLMP-EG26-RU00013004800HLMP-EL30-MQ000HLMP-EL32-MQ0004501730HLMP-EL30-NR000HLMP-EL32-NR0005902200HLMP-EL30-PQ0007651730HLMP-EL30-PQK00*7651730 Amber 590HLMP-EL30-PR0007652200HLMP-EL30-PR400**7652200HLMP-EL30-PRK00*7652200HLMP-EL30-PS000HLMP-EL32-PS0007652900HLMP-EL30-PSK00*7652900 30°HLMP-EJ30-MQ0004501730 Orange 605HLMP-EJ30-NR000HLMP-EJ32-NR0005902200HLMP-EJ30-PS000HLMP-EJ32-PS0007652900HLMP-EH30-MQ000HLMP-EH32-MQ0004501730 Red-Orange 615HLMP-EH30-NR000HLMP-EH32-NR0005902200HLMP-EH30-PS000HLMP-EH32-PS0007652900HLMP-EG30-KN0002701010HLMP-EG30-MQ000HLMP-EG32-MQ0004501730HLMP-EG30-NQ0005901730HLMP-EG30-NR000HLMP-EG32-NR0005902200 Red 626HLMP-EG30-PQ0007651730HLMP-EG30-PR0007652200HLMP-EG30-PS000HLMP-EG32-PS0007652900 Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2.The optical axis is closely aligned with the package mechanical axis.3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: Bulk PackagingDD: Ammo PackYY: Flexi-Bin; Bulk PackagingZZ: Flexi-Bin; Ammo PackColor Bin Selections0: No color bin limitation4: Amber color bin 4 onlyK: Amber color bins 2 and 4 onlyMaximum Intensity Bin0: No Iv bin limitationMinimum Intensity BinViewing Angle & Lead Stand Offs08: 6 deg without lead stand offs10: 6 deg with lead stand offs15: 15 deg without lead stand offs17: 15 deg with lead stand offs24: 23 deg without lead stand offs26: 23 deg with lead stand offs30: 30 deg without lead stand offs32: 30 deg with lead stand offsColorG: 626 nm RedH: 615 nm Red-OrangeJ: 605 nm OrangeL: 590 nm AmberPackageE: 5 mm RoundNOTES:1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).2. LEADS ARE MILD STEEL, SOLDER DIPPED.3. TAPERS SHOWN AT TOP OF LEADS (BOTTOM OF LAMP PACKAGE) INDICATE AN EPOXY MENISCUS THAT MAY EXTEND ABOUT 1 mm (0.040 in.) DOWN THE LEADS.4. RECOMMENDED PC BOARD HOLE DIAMETERS:• LAMP PACKAGE A WITHOUT STAND-OFFS: FLUSH MOUNTING AT BASE OF LAMP PACKAGE = 1.143/1.067 (0.044/0.042).• LAMP PACKAGE B WITH STAND-OFFS: MOUNTING AT LEAD STAND-OFFS = 0.965/0.889 (0.038/0.035).5. FOR DOME HEIGHTS ABOVE LEAD STAND-OFF SEATING PLANE, d, LAMP PACKAGE B, SEE TABLE.BPackage DimensionsA(0.039)(0.039)PART NO.d HLMP-XX1012.37 ± 0.25 (0.487 ± 0.010)HLMP-XX1712.42 ± 0.25 (0.489 ± 0.010)HLMP-XX2612.52 ± 0.25 (0.493 ± 0.010)HLMP-XX3211.96 ± 0.25 (0.471 ± 0.010)Electrical/Optical Characteristics at T A = 25°CParameter SymbolMin.Typ.Max.UnitsTest Conditions Forward VoltageI F = 20 mAAmber (λd = 590 nm) 2.02Orange (λd = 605 nm)V F 1.98 2.4VRed-Orange (λd = 615 nm) 1.94Red (λd = 626 nm) 1.90Reverse Voltage V R 520VI F = 100 µAPeak Wavelength:Peak of Wavelength of Amber (λd = 590 nm)592Spectral Distribution Orange (λd = 605 nm)λPEAK 609nmat I F = 20 mARed-Orange (λd = 615 nm)621Red (λd = 626 nm)635Spectral Halfwidth∆λ1/217nmWavelength Width at Spectral Distribution 1/2 Power Point at I F = 20 mASpeed of Response τs 20ns Exponential Time Constant, e -t/τCapacitanceC 40pF V F = 0, f = 1 MHzThermal Resistance R θJ-PIN240°C/WLED Junction-to-Cathode LeadLuminous Efficacy [1]Emitted LuminousAmber (λd = 590 nm)480Power/Emitted Radiant Orange (λd = 605 nm)ηv370lm/WPowerRed-Orange (λd = 615 nm)260Red (λd = 626 nm)150Note:Absolute Maximum Ratings at T A = 25°CDC Forward Current [1,2,3]............................................................50 mA Peak Pulsed Forward Current [2,3]..............................................100 mA Average Forward Current [3].........................................................30 mA Reverse Voltage (I R = 100 µA).........................................................5 V LED Junction Temperature..........................................................130°C Operating Temperature ..............................................-40°C to +100°C Storage Temperature ..................................................-40°C to +120°C Dip/Drag Soldering Temperature...........................260°C for 6 seconds Through-the-Wave Preheat Temperature......................................145°C Through-the-Wave Solder Temperature.................245°C for 3 seconds [1.59 mm (0.060 in.) below seating plane]Notes:1. Derate linearly as shown in Figure 4.2. For long term performance with minimal light output degradation, drive currentsbetween 10 mA and 30 mA are recommended. For more information on recommended drive conditions, please refer to Application Brief I-024 (5966-3087E).3. Operating at currents below 1 mA is not recommended. Please contact your local representative for further information.sFigure 2. Forward Current vs.Forward Voltage.Figure 3. Relative Luminous Intensity vs. Forward Current.Figure 4. Maximum Forward Current vs. Ambient Temperature. Derating Based on T JMAX = 130°C.Figure 1. Relative Intensity vs. Peak Wavelength.I F – F O R W A R D C U R R E N T – m AT A – AMBIENT TEMPERATURE – °CR E L A T I V E I N T E N S I T Y – %1000θ – ANGULAR DISPLACEMENT – DEGREES8060507020-20-15103040-1051015202590-25-5WAVELENGTH – nmR E L A T I V E I N T E N S I T YR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )00I F – DC FORWARD CURRENT – mA 403.02.01.51.00.520602.5C U R R E NT – m AV F – FORWARD VOLTAGE – VBin Name Min.Max.K 310400L 400520M 520680N680880P 8801150Q 11501500R 15001900S 19002500T 25003200U 32004200V 42005500W 55007200X 72009300Y 930012000Z 12000160001160002100022100027000Intensity Bin Limits (mcd at 20 mA)Tolerance for each bin limit is ± 15%.Bin Name Min.Max.1584.5587.02587.0589.54589.5592.06592.0594.5Amber Color Bin Limits (nm at 20 mA)Tolerance for each bin limit is ± 0.5 nm.Note:1.Bin categories are established for classification of products. Products Figure 7. Representative Spatial Radiation Pattern for 23° Viewing Angle Lamps.R E L A T I V E I N T E N S I T Y – %1000θ – ANGULAR DISPLACEMENT – DEGREES806050702010304090-20-15-10510152025-25-5R E L A T I V E I N T E N S I T Y – %1000θ – ANGULAR DISPLACEMENT – DEGREES806050702010304090-20-15-10510152025-25-5R E L A T I V E I N T E N S I T Y – %1000θ – ANGULAR DISPLACEMENT – DEGREES806050702010304090-20-15-10510152025-25-5Figure 6. Representative Spatial Radiation Pattern for 15° Viewing Angle Lamps.Data subject to change.Copyright © 2001 Agilent Technologies, Inc. August 13, 2001。

Agilent HLMP-CxxxT-13/4 (5mm) Extra Bright Precision Optical Performance InGaN LED Lamps Data SheetDescriptionThese high intensity blue and green LEDs are based on the most efficient and cost effective InGaN material technology. The 470 nm typical dominant wave–length for blue and 525 nm typical wavelength for green is well suited to color mixing in full color signs. The 505 nm typical dominant wavelength for cyan is suitable for traffic signal application.These LED lamps are untinted, non-diffused, T-13/4 packagesFeatures•Well defined spatial radiationpattern•High luminous output•Available in blue, green, and cyancolor•Viewing angle: 15°, 23°and 30°•Standoff or non-standoff leads•Superior resistance to moistureApplications•Traffic signals•Commercial outdoor advertising•Front panel backlighting•Front panel indicator incorporating second generationoptics which produce well-definedspatial radiation patterns atspecific viewing cone angles.These lamps are made with anadvanced optical grade epoxy,offering superior temperatureand moisture resistance inoutdoor signal and signapplications. The high maximumLED junction temperature limitof +110°C enables hightemperature operation in brightsunlight conditions.HLMP-CB11, HLMP-CB12, HLMP-CM11, HLMP-CM12, HLMP-CE11,HLMP-CE12, HLMP-CB26, HLMP-CB27, HLMP-CM26, HLMP-CM27,HLMP-CE26, HLMP-CE27, HLMP-CB36, HLMP-CB37, HLMP-CM36,HLMP-CM37, HLMP-CE36, HLMP-CE37CAUTION: Devices are Class I ESD sensitive. Please observe appropriate precautions during handling and processing. Refer to Application Note AN-1142 for additional details.Package DimensionsPackage APackage B5.80 ± 0.20(0.228 ±∅ CATHODEFLATMIN.SQ. TYP.NOTES:1. MEASURED JUST ABOVE FLANGE.2. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).3. EPOXY MENISCUS MAY EXTEND ABOUT 1 mm (0.040") DOWN THE LEADS.4. IF HEAT SINKING APPLICATION IS REQUIRED, THE TERMINAL FOR HEAT SINK IS ANODE.Device Selection GuideTypicalViewing Angle,Intensity (cd) at 20 mA PackagePart Number Color2q1/2 (Degree)Min.Max.Standoff Dimension Lens HLMP-CB11-TW0xx Blue15 2.57.2No A Clear HLMP-CB11-UVAxx Blue15 3.2 5.5No A Clear HLMP-CB12-TW0xx Blue15 2.57.2Yes B Clear HLMP-CM11-Y20xx Green159.327.0No A Clear HLMP-CM11-Z1Cxx Green1512.021.0No A Clear HLMP-CM12-Y20xx Green159.327.0Yes B Clear HLMP-CE11-X10xx Cyan157.221.0No A Clear HLMP-CE12-X10xx Cyan157.221.0Yes B Clear HLMP-CB26-SV0xx Blue23 1.9 5.5No A Clear HLMP-CB26-TUDxx Blue23 2.5 4.2No A Clear HLMP-CB27-SV0xx Blue23 1.9 5.5Yes B Clear HLMP-CM26-X10xx Green237.221.0No A Clear HLMP-CM26-YZCxx Green239.316.0No A Clear HLMP-CM27-X10xx Green237.221.0Yes B Clear HLMP-CE26-WZ0xx Cyan23 5.516.0No A Clear HLMP-CE27-WZ0xx Cyan23 5.516.0Yes B Clear HLMP-CB36-QT0xx Blue30 1.15 3.2No A Clear HLMP-CB36-RSAxx Blue30 1.5 2.5No A Clear HLMP-CB37-RU0xx Blue30 1.5 4.2Yes B Clear HLMP-CB37-RSDxx Blue30 1.5 2.5Yes B Clear HLMP-CM36-X10xx Green307.221.0No A Clear HLMP-CM36-XYCxx Green307.212.0No A Clear HLMP-CM37-X10xx Green307.221.0Yes B Clear HLMP-CM37-XYCxx Green307.212.0Yes B Clear HLMP-CM37-XYDxx Green307.212.0Yes B Clear HLMP-CE36-WZ0xx Cyan30 5.516.0No A Clear HLMP-CE37-WZ0xx Cyan30 5.516.0Yes B ClearNotes:1.Tolerance for luminous intensity measurement is ±15%.2.The luminous intensity is measured on the mechanical axis of the lamp package.3.The optical axis is closely aligned with the package mechanical axis.4.LED light output is bright enough to cause injuries to the eyes. Precautions must be taken to prevent looking directly at the LED without propersafety equipment.5. 2q1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: BulkDD: Ammo PackColor Bin Options0: Full Color Bin DistributionA: Color Bin 1 and 2C: Color Bin 3 and 4D: Color Bin 4 and 5Maximum Intensity Bin0: No Maximum Intensity Bin LimitationOthers: Refer to Device Selection GuideMinimum Intensity BinRefer to Device Selection GuideViewing Intensity Bin11: 15° Without Standoff12: 15°With Standoff26: 23°Without Standoff27: 23°With Standoff36: 30°Without standoff37: 30°With StandoffColorB: Blue 470 nmM: Green 525 nmE: Cyan 505 nmPackageC: T-13/4 (5 mm) Round LampAbsolute Maximum Rating at T A = 25°CParameters Value UnitDC Forward Current [1]30mAPeak Pulsed Forward Current[3]100mAAverage Forward Current30mAPower Dissipation120mWLED Junction Temperature110°COperating Temperature Range–40 to +85°CStorage Temperature Range–40 to +100°CWave Soldering Temperature[2]250 for 3 secs°CNotes:1.Derate linearly as shown in Figure2.2.1.59 mm (0.060 inch) below body.3.Duty factor 10%, frequency 1 KHz.Electrical/Optical CharacteristicsT A = 25o CBlue Green CyanParameters Symbol Min.Typ.Max.Min.Typ.Max.Min.Typ.Max.Units Test Condition Forward Voltage V F 3.5 4.0 3.6 4.0 3.5 4.0V I F = 20 mA Reverse Voltage[1]V R 5.0 5.0 5.0V I R = 10 µA Thermal Resistance R q J-PIN240240240o C/W LED Junction toAnode Lead Dominant l d460470480520525540490505510nm I F = 20 mA Wavelength[2]Peak Wavelength l PEAK464516501nm Peak of Wavelengthof Spectral Distribu-tion at I F = 20 mA Spectral Half Width Dl1/2233230nm Wavelength Widthat Spectral Distribu-tion Power Pointat I F = 20 mA Luminous Efficacy[3]h v74484319lm/W Emitted LuminousPower/EmittedRadiant Power Notes:1.The reverse voltage of the product is equivalent to the forward voltage of the protective chip at I R = 10 µA.2.The dominant wavelength, l d, is derived from the Chromaticity Diagram and represents the color of the lamp.3.The radiant intensity, Ie in watts/steradian, may be found from the equation Ie = Iv/h v, where Iv is the luminous intensity in candelas and h v is theluminous efficacy in lumens/watt.Figure 5. Relative intensity vs. DC forward current.Figure 4. Relative dominant wavelength vs. DC forward current.DC FORWARD CURRENT – mAR E L A T I V E D O M I N A N T W A V E L E N G T H (N O R M A L I Z E D A T 20 m A )1020301.0250.9901.0151.0201.0101.0051.0000.995GREENBLUER E L A T I V E I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )FORWARD CURRENT – mAFigure 1. Relative intensity vs. wavelength.Figure 3. Forward current vs. forward voltage.Figure 2. Forward current vs. ambient temperature.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.0000.800.600.400.20030103.0202.01.0F O R W A R D C U R R E N T – m AFORWARD VOLTAGE – V 4.0CYANGREENBLUEI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VOLTSFigure 6. Spatial radiation pattern for Cx11 and Cx12.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Figure 7. Spatial radiation pattern for Cx26 and Cx27.Figure 8. Spatial radiation pattern for Cx36 and Cx37.R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090R E L A T I V E L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.5-90-600-30306090Intensity Bin Limit TableIntensity (mcd) at 20 mA Bin Min MaxN680880P8801150Q11501500R15001900S1*******T25003200U32004200V42005500W55007200X72009300Y930012000Z1200016000 11600021000 Tolerance for each bin limit is ±15%.Blue Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1460.0464.00.14400.02970.17660.09660.18180.09040.13740.0374 2464.0468.00.13740.03740.16990.10620.17660.09660.12910.0495 3468.0472.00.12910.04950.16160.12090.16990.10620.11870.0671 4472.0476.00.11870.06710.15170.14230.16160.12090.10630.0945 5476.0480.00.10630.09450.13970.17280.15170.14230.09130.1327 Tolerance for each bin limit is ±0.5 nm.Cyan Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1490.0495.00.04540.29450.11640.38890.13180.3060.02350.4127 2495.0500.00.03450.41270.10570.47690.11640.38890.00820.5384 3500.0505.00.00820.53840.10270.55840.10570.47690.00390.6548 4505.0510.00.00390.65480.10970.62510.10270.55840.01390.7502 7498.0503.00.01320.48820.10280.52730.10920.44170.00400.6104 8503.0508.00.00400.61040.10560.60070.10280.52730.00800.7153 Tolerance for each bin limit is ±0.5 nm.Green Color Bin TableBin Min Dom Max Dom Xmin Ymin Xmax Ymax 1520.0524.00.07430.83380.18560.65560.16500.65860.10600.8292 2524.0528.00.10600.82920.20680.64630.18560.65560.13870.8148 3528.0532.00.13870.81480.22730.63440.20680.64630.17020.7965 4532.0536.00.17020.79650.24690.62130.22730.63440.20030.7764 5536.0540.00.20030.77640.26590.60700.24690.62130.22960.7543 Tolerance for each bin limit is ±0.5 nm./semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. December 7, 20045989-1022EN。

DescriptionThese non-diffused lamps are designed to produce a bright light source and smooth radiationpattern. A slight tint is added to the lens for easy color identification.This lamp has been designed with aHLMP-C115, HLMP-C117, HLMP-C123, HLMP-C215, HLMP-C223,HLMP-C315, HLMP-C323, HLMP-C415, HLMP-C423, HLMP-C515,HLMP-C523, HLMP-C615, HLMP-C623Features•Very high intensity •Exceptional uniformity •Microtint lens for color identification•Consistent viewability All colors: AlGaAs RedHigh Efficiency Red Yellow Orange GreenEmerald Green •15° and 25° family•Tape and reel options available •Binned for color and intensity Applications•Ideal for backlighting front panels*•Used for lighting switches •Adapted for indoor and outdoor signsAgilentT-13/4 Super Ultra-Bright LED LampsData Sheet20mil lead frame, enhanced flange, and tight meniscus controls, making it compatible with radial lead automated insertion equipment.Selection GuidePart Number Luminous Intensity Iv (mcd) Color2θ1/2[1]Standoff Leads HLMP-Min.Max.DH AS AlGaAs15No C115290.0–C115-O00xx290.0–C115-OP0xx290.01000.0Yes C117-OP0xx290.01000.025No C12390.2–C123-L00xx90.2–Red15No C215138.0–C215-M00xx138.0–C215-MN0xx138.0400.025No C22390.2–C223-L00xx90.2–C223-MN0xx138.0400.0 Yellow15No C315147.0–C315-L00xx147.0–C315-LM0xx147.0424.025No C32396.2–C323-K00xx96.2–C323-KL0xx96.2294.0 Orange15No C415138.0–C415-M00xx138.0–C415-M0D0xx138.0–C415-MN0xx138.0400.025No C42390.2–C423-L00xx90.2–C423-LM0xx90.2276.0 Green15No C515170.0–C515-L00xx170.0C515-LM0xx170.0490.025No C52369.8–C523-J00xx69.8–C523-KL0xx111.7340.0 Emerald Green15No C61517.0–C615-G00xx17.0–25No C623 6.7–C623-E00xx 6.7–Part Numbering SystemHLMP - C x xx - x x x xxMechanical Options00: Bulk01: Tape & Reel, Crimped Leads02: Tape & Reel, Straight LeadsB2: Right Angle Housing, Even LeadsUQ: Ammo Pack, Horizontal LeadsColor Bin Options0: Full Color Bin DistributionD: Color Bins 4 & 5 onlyMaximum Iv Bin Options0: Open (No Maximum Limit)Others: Please refer to the Iv Bin TableMinimum Iv Bin OptionsPlease refer to the Iv Bin TableViewing Angle & Standoffs Options15: 15 Degree, without Standoffs17: 15 Degree, with Standoffs23: 25 Degree, without StandoffsColor Options1. AS AlGaAs Red2. High Efficiency Red3. Yellow4. Orange5. Green6. Emerald GreenPackage OptionsC: T-1 3/4 (5 mm)Absolute Maximum Ratings at T A = 25°CHighHighDH AS Efficiency Performance AlGaAs Red and Green and ParameterRed Orange Yellow Emerald Green Units DC Forward Current [1]30302030mA Transient Forward Current [2]500500500500mA (10 µsec Pulse)Reverse Voltage (Ir = 100 µA)5555V LED Junction Temperature 110110110110°C Operating Temperature Range –20 to +100–55 to +100–20 to +100°C Storage Temperature Range –55 to +100°CWave Soldering Temperature 250°C for 3 seconds [1.59 mm (0.063 in.) from body]Lead Solder Dipping Temperature 260°C for 5 seconds[1.59 mm (0.063 in.) from body]Notes:1. See Figure 5 for maximum current derating vs. ambient temperature.2. The transient current is the maximum nonrecurring peak current the device can withstand without damaging the LED die and wire bond.Package DimensionsHLMP-Cx15 and HLMP-Cx23HLMP-Cx17(0.039)NOTES:1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).2. LEADS ARE MILD STEEL, SOLDER DIPPED.3. AN EPOXY MENISCUS MAY EXTEND ABOUT 0.5 mm (0.020 in.) DOWN THE LEADS.± 0.20± 0.008)Electrical Characteristics at T A = 25°CForward Reverse Capacitance Speed of ResponseVoltage Breakdown C (pF)Thermalτs (ns)Vf (Volts)Vr (Volts)Vf = 0Resistance Time Constant@ If = 20 mA@ Ir = 100 µA f = 1 MHz RθJ-PIN e-t/τsPart Number Typ.Max.Min.Typ.(°C/W)Typ.HLMP-C115 1.8 2.253021030HLMP-C117HLMP-C123HLMP-C215 1.9 2.651121090HLMP-C223HLMP-C315 2.1 2.651521090HLMP-C323HLMP-C415 1.9 2.654210280HLMP-C423HLMP-C515 2.2 3.0518210260HLMP-C523HLMP-C615 2.2 3.0518210260HLMP-C623Optical Characteristics at T A = 25°CLuminous Color,ViewingIntensity Peak Dominant Angle LuminousIv (mcd)Wavelength Wavelength2θ1/2Efficacy@ 20 mA[1]λpeak (nm)λd[2] (nm)(Degrees)[3]ηvPart Number Min.Typ.Typ.Typ.Typ.(lm/w) HLMP-C1152906006456371180HLMP-C117HLMP-C1239020026HLMP-C215138300635626171459017023HLMP-C315146300583585175009617025HLMP-C415138300600602173809017023HLMP-C515170300568570205956917028HLMP-C61517455585602065662728Notes:1. The luminous intensity, Iv, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation pattern may not bealigned with this axis.2. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the device.3. 2θ1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Figure 1. Relative intensity vs. wavelength.Figure 2. Forward current vs. forward voltage (non-resistor lamp).Figure 3. Relative luminous intensity vs. forward current.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.00.50I F – F O R W A R DC U R R E N T – m AV F – FORWARD VOLTAGE – VI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VHIGH EFFICIENCY RED, ORANGE,YELLOW, AND HIGH PERFORMANCEGREEN, EMERALD GREENR E L A T I V E L U M I N O U S I N TE N S I T Y (N O R M A L I Z E D A T 20 m A )I F – DC FORWARD CURRENT – mA R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )0I DC – DC CURRENT PER LED – mA10201.60.80.4515301.2250.20.61.01.4HER, ORANGE, YELLOW, AND HIGH PERFORMANCE GREEN, EMERALD GREENFigure 5. Maximum forward dc current vs. ambient temperature. Derating based on T j MAX = 110°C.Figure 4. Relative efficiency (luminous intensity per unit current) vs. peak current.Figure 6. Relative luminous intensity vs. angular displacement. 15 degree family.R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D A T 20 m A )0I PEAK – PEAK FORWARD CURRENT – mA0.60.8300201001.21.00.20.45020010DH As AlGaAs REDηP E A K – R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D A T 20 m A )I PEAK – PEAK FORWARD CURRENT – mAHER, ORANGE, YELLOW, HIGHPERFORMANCE GREEN, EMERALD GREENI F – F O R W A R D C U R R E NT – m AT A – AMBIENT TEMPERATURE – °C DH As AlGaAs REDI F – F O R W A R D C U R R E N T – m AT A – AMBIENT TEMPERATURE – °CHER, ORANGE, YELLOW, AND HIGH PERFORMANCE GREEN, EMERALD GREEN N O R M A L I Z E D L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.80.60.50.70.2450.10.30.4403530252010515-5-10-15-20-25-30-35-40-450.9Figure 7. Relative luminous intensity vs. angular displacement. 25 degree family.Intensity Bin Limits Intensity Range (mcd)ColorBin Min.Max.L 101.5162.4M 162.4234.6N 234.6340.0O 340.0540.0P 540.0850.0Q 850.01200.0R 1200.01700.0Red/OrangeS 1700.02400.0T 2400.03400.0U 3400.04900.0V 4900.07100.0W 7100.010200.0X 10200.014800.0Y 14800.021400.0Z 21400.030900.0L 173.2250.0M 250.0360.0N 360.0510.0O 510.0800.0P 800.01250.0YellowQ 1250.01800.0R 1800.02900.0S 2900.04700.0T 4700.07200.0U 7200.011700.0V 11700.018000.0W18000.027000.0N O R M A L I Z E D L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.80.60.50.70.2450.10.30.4403530252010515-5-10-15-20-25-30-35-40-450.9Intensity Bin Limits, continuedIntensity Range (mcd) Color Bin Min.Max.E7.612.0F12.019.1G19.130.7H30.749.1I49.178.5J78.5125.7K125.7201.1L201.1289.0 Green/M289.0417.0 Emerald Green N417.0680.0O680.01100.0P1100.01800.0Q1800.02700.0R2700.04300.0S4300.06800.0T6800.010800.0U10800.016000.0V16000.025000.0W25000.040000.0 Maximum tolerance for each bin limit is ± 18%.Color CategoriesLambda (nm)Color Category #Min.Max.6561.5564.55564.5567.5 Green4567.5570.53570.5573.52573.5576.51582.0584.53584.5587.0 Yellow2587.0589.54589.5592.05592.0593.01597.0599.52599.5602.03602.0604.5 Orange4604.5607.55607.5610.56610.5613.57613.5616.58616.5619.5 Tolerance for each bin limit is ± 0.5 nm.Mechanical Option MatrixMechanical Option Code Definition00Bulk Packaging, minimum increment 500 pcs/bag01Tape & Reel, crimped leads, minimum increment 1300 pcs/bag02Tape & Reel, straight leads, minimum increment 1300 pcs/bagB2Right Angle Housing, even leads, minimum increment 500 pcs/bagUQ Ammo Pack, horizontal leads, in 1K minimum incrementNote:All categories are established for classification of products. Products may not be available in all categories. Please contact your local Agilent representative for further clarification/information./semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only)Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand,Philippines, Indonesia: (+65) 6755 2044Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc.Obsoletes 5965-6165ENovember 11, 20045988-2149EN。