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HLMP-2785

HLMP-2785

  • 厂商:

    AVAGO(博通)

  • 封装:

    DIP

  • 描述:

    LED LT BAR 8.89X19.05MM SGL YLW

  • 数据手册
  • 价格&库存
HLMP-2785 数据手册
HLCP-A100 LED Light Bars Data Sheet HLCP-A100/-B100/-C100/D100/-E100/-F100/-G100/-H100 HLMP-2300/-2350/-2400/-2450/-2500/-2550 HLMP-2600/-2620/-2635/-2655/-2670/-2685 HLMP-2700/-2720/-2735/-2755/-2770/-2785 HLMP-2800/-2820/-2835/-2855/-2870/-2885 HLMP-2950/-2965 Description The HLCP-X100 and HLMP-2XXX series light bars are rectangular light sources designed for a variety of applications where a large bright source of light is required. These light bars are configured in singlein-line and dual-in-line packages that contain either single or segmented light emitting areas. The AlGaAs Red HLCP-X100 series LEDs use double heterojunction AlGaAs on a GaAs substrate. The HER HLMP-2300/2600 and Yellow HLMP-2400/2700 series LEDs have their p-n junctions diffused into a GaAsP epitaxial layer on a GaP substrate. The Green HLMP2500/2800 series LEDs use a liquid phase GaP epitaxial layer on a GaP substrate. The bicolor HLMP2900 series use a combination of HER/Yellow or HER/ Green LEDs. Features • Large bright, uniform light emitting areas • Choice of colors • Categorized for light output • Yellow and Green categorized for dominant wavelength • Excellent ON-OFF contrast • X-Y stackable • Flush mountable • Can be used with panel and legend mounts • Light emitting surface suitable for legend attachment per Application Note 1012 • HLCP-X100 Series designed for low current operation • Bicolor devices available Applications • Business machine message annunciators • Telecommunications indicators • Front panel process status indicators • PC board identifiers • Bar graphs Selection Guide Light Bar Part Number HLCPAlGaAs A100 B100 D100 E100 F100 C100 G100 H100 HER 2300 2350 2600 2620 2635 2655 2670 2685 2950 2965 HLMPYellow 2400 2450 2700 2720 2735 2755 2770 2785 2950 2965 Green 2500 2550 2800 2820 2835 2855 2870 2885 8.89 mm x 3.81 mm (.350 in. x .150 in.) 19.05 mm x 3.81 mm (.750 in. x .150 in.) 8.89 mm x 3.81 mm (.350 in. x .150 in.) 8.89 mm x 3.81 mm (.350 in. x .150 in.) 3.81 mm x 19.05 mm (.150 in. x .750 in.) 8.89 mm x 8.89 mm (.350 in. x .350 in.) 8.89 mm x 8.89 mm (.350 in. x .350 in.) 8.89 mm x 19.05 mm (.350 in. x .750 in.) 8.89 mm x 8.89 mm (.350 in. x .350 in.) 8.89 mm x 8.89 mm (.350 in. x .350 in.) Size of Light Emitting Areas Number of Light Emitting Areas 1 1 2 4 2 1 2 1 Bicolor Bicolor A B D E F C G H I I Corresponding Panel and Legend Mount Part No. HLMP2599 2598 2898 2899 2899 2898 2899 2899 2898 2898 Package Outline 2 Part Numbering System HLCP - xx xx - xx x xx HLMP - xx xx - xx x xx Mechanical Options[1] 00: No mechanical option Color Bin Options[1,2] 0: No color bin limitation B: Color bins 2 & 3 (applicable for yellow devices only) C: Color bins 3 & 4 only (applicable for green devices only) Maximum Intensity Bin[1,2] 0: No maximum intensity bin limitation Minimum Intensity Bin[1,2] 0: No minimum intensity bin limitation Device Specific Configuration[1] Refer to respective data sheet Color[1] x1: AlGaAs Red (applicable for HLCP-x100 only) 23: High Efficiency Red 24: Yellow 25: Green 26: High Efficiency Red 27: Yellow 28: Green 29: Bicolor (High Efficiency Red/Yellow) OR (High Efficiency Red/Green) Notes: 1. For codes not listed in the figure above, please refer to the respective data sheet or contact your nearest Avago representative for details. 2. Bin options refer to shippable bins for a part-number. Color and Intensity Bins are typically restricted to 1 bin per tube (exceptions may apply). Please refer to respective data sheet for specific bin limit information. 3 Package Dimensions NOTES: 1. DIMENSIONS IN MILLIMETRES (INCHES). TOLERANCES ±0.25 mm (±0.010 IN.) UNLESS OTHERWISE INDICATED. 2. FOR YELLOW AND GREEN DEVICES ONLY. 4 Internal Circuit Diagrams I 5 Absolute Maximum Ratings AlGaAs Red HLCP-X100 Series 37 mW[1] 45 mA[4] 15 mA 15 mA 5V –20°C to +100°C[7] [1] Parameter HER HLMP-2300/ 2600/29XX Series 135 mW[2] 90 mA[5] 25 mA 30 mA [2] Yellow HLMP-2400/ 2700/2950 Series 85 mW[3] 60 mA[5] 20 mA 25 mA [3] Green HLMP-2500/ 2800/2965 Series 135 mW[2] 90 mA[5] 25 mA 30 mA[2] Average Power Dissipated per LED Chip Peak Forward Current per LED Chip Average Forward Current per LED Chip DC Forward Current per LED Chip Reverse Voltage per LED Chip Operating Temperature Range Storage Temperature Range Wave Soldering Temperature 1.6 mm (1/16 inch) below Body 6 V[6] –40°C to +85°C –40°C to +85°C 250°C for 3 seconds –20°C to +85°C Notes: 1. Derate above 87°C at 1.7 mW/°C per LED chip. For DC operation, derate above 91°C at 0.8 mA/°C. 2. Derate above 25°C at 1.8 mW/°C per LED chip. For DC operation, derate above 50°C at 0.5 mA/°C. 3. Derate above 50°C at 1.8 mW/°C per LED chip. For DC operation, derate above 60°C at 0.5 mA/°C. 4. See Figure 1 to establish pulsed operation. Maximum pulse width is 1.5 mS. 5. See Figure 6 to establish pulsed operation. Maximum pulse width is 2 mS. 6. Does not apply to bicolor parts. 7. For operation below –20°C, contact your local Avago sales representative. Electrical/Optical Characteristics at TA = 25°C AlGaAs Red HLCP-X100 Series Parameter Luminous Intensity per Lighting Emitting Area[1] Peak Wavelength Dominant Wavelength[2] Forward Voltage per LED Reverse Breakdown Voltage per LED Thermal Resistance LED Junction-to-Pin HLCPA100/D100/E100 B100/C100/F100/G100 H100 λPEAK λd VF VR RθJ-PIN 5 Symbol IV Min. 3 6 12 Typ. 7.5 15 30 645 637 1.8 15 250 2.2 Max. Units mcd mcd mcd nm nm V V °C/W/ LED IF = 20 mA IR = 100 µA Test Conditions IF = 3 mA 6 High Efficiency Red HLMP-2300/2600/2900 Series Parameter Luminous Intensity per Lighting Emitting Area[1] HLMP2300/2600/2620 2350/2635/2655/2670/2950 2965[4] 2685 Peak Wavelength Dominant Wavelength[2] Forward Voltage per LED Reverse Breakdown Voltage per LED[5] Thermal Resistance LED Junction-to-Pin λPEAK λd VF VR RθJ-PIN 6 [3] Symbol IV Min. 6 13 19 22 Typ. 23 45 45 80 635 626 2.0 15 150 Max. Units mcd mcd mcd mcd nm nm Test Conditions IF = 20 mA 2.6 V V °C/W/ LED IF = 20 mA IR = 100 µA Yellow HLMP-2400/2700/2950 Series Parameter Luminous Intensity per Lighting Emitting Area[1] Peak Wavelength Dominant Wavelength[2] Forward Voltage per LED Reverse Breakdown Voltage per LED[5] Thermal Resistance LED Junction-to-Pin HLMP2400/2700/2720 2450/2735/2755/2770/2950 2785 λPEAK λd VF VR RθJ-PIN 6 [3] Symbol IV Min. 6 13 26 Typ. 20 38 70 583 585 2.1 15 150 Max. Units mcd mcd mcd nm nm Test Conditions IF = 20 mA 2.6 V V °C/W/ LED IF = 20 mA IR = 100 µA 7 High Performance Green HLMP-2500/2800/2965 Series Parameter Luminous Intensity per Lighting Emitting Area[1] HLMP2500/2800/2820 2550/2835/2855/2870 2965[4] 2885 Peak Wavelength Dominant Wavelength[2] Forward Voltage per LED Reverse Breakdown Voltage per LED[5] Thermal Resistance LED Junction-to-Pin λPEAK λd VF VR RθJ-PIN 6 Symbol IV Min. 5 11 25 22 Typ. 25 50 50 100 565 572 2.2 15 150 2.6 Max. Units mcd mcd mcd mcd nm nm V V °C/W/ LED IF = 20 mA IR = 100 µA Test Conditions IF = 20 mA Notes: 1. These devices are categorized for luminous intensity. The intensity category is designated by a letter code on the side of the package. 2. The dominant wavelength, λd, is derived from the CIE chromaticity diagram and is the single wavelength which defines the color of the device. Yellow and Green devices are categorized for dominant wavelength with the color bin designated by a number code on the side of the package. 3. This is an HER/Yellow bicolor light bar. HER electrical/optical characteristics are shown in the HER table. Yellow electrical/optical characteristics are shown in the Yellow table. 4. This is an HER/Green bicolor light bar. HER electrical/optical characteristics are shown in the HER table. Green electrical/optical characteristics are shown in the Green table. 5. Does not apply to HLMP-2950 or HLMP-2965. 8 AlGaAs Red Figure 1. Maximum Allowable Peak Current vs. Pulse Duration. Figure 2. Maximum Allowed DC Current per LED vs. Ambient Temperature, TJMAX = 110 °C. Figure 3. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak LED Current. Figure 4. Forward Current vs. Forward Voltage. Figure 5. Relative Luminous Intensity vs. DC Forward Current. 9 HER, Yellow, Green Figure 6. Maximum Allowed Peak Current vs. Pulse Duration. Figure 7. Maximum Allowable DC Current per LED vs. Ambient Temperature, TJ MAX = 100°C. Figure 8. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak LED Current. Figure 9. Forward Current vs. Forward Voltage Characteristics. Figure 10. Relative Luminous Intensity vs. DC Forward Current. For a detailed explanation on the use of data sheet information and recommended soldering procedures, see Application Notes 1005, 1027, and 1031. 10 Intensity Bin Limits (mcd) HLMP-2300/2600/2620 Annunciators (.2 x .4 HER/AlGaAs), HLCP-A100/D100/E100 IV Bin Category A B C D E F G Min. 3.00 4.50 6.80 10.10 15.30 22.80 36.90 Max. 5.60 8.20 12.10 18.50 27.80 45.50 73.80 Notes: 1. Minimum category A for Red L/C AlGaAs (-A100/-D100/-E100). 2. Minimum category C for HER (-2300/-2600/-2620). HLMP-2350/2635/2655/2670 Annunciators (.2 x .8 HER/AlGaAs), HLCP-B100/C100/F100/G100 (.4 x .4 HER/AlGaAs) IV Bin Category A B C D E F G Min. 5.40 9.00 13.10 19.70 29.60 44.90 71.90 Max. 10.90 16.00 24.00 36.10 54.20 88.80 143.80 Notes: 1. Minimum category A for Red L/C AlGaAs (-B100/-C100/-F100/-G100). 2. Minimum category C for HER (-2350/-2635/-2670). HLMP-2685/HLCP-H100 Annunciators (.4 x .8 HER/AlGaAs) IV Bin Category A B C D E F G Min. 10.80 18.00 22.00 33.30 50.00 75.10 121.70 Max. 22.00 27.10 40.80 61.10 91.80 150.00 243.40 Notes: 1. Minimum category A for Red L/C AlGaAs (-H100). 2. Minimum category C for HER (-2685). 11 HLMP-2400/2700/2720 Annunciators (.2 x .4 Yellow) IV Bin Category C D E F G Min. 6.10 9.20 13.80 20.70 33.60 Max. 11.20 16.80 25.30 41.40 67.20 HLMP-2450/2735/2755/2770 Annunciators (.2 x .8 Yellow & .4 x .4 Yellow) IV Bin Category C D E F G Min. 13.00 18.00 27.00 40.50 65.60 Max. 22.00 33.00 50.00 81.00 131.20 HLMP-2785 Annunciators (.4 x .8 Yellow) IV Bin Category C D E F G Min. 26.00 36.00 54.00 81.00 131.40 Max. 44.40 66.00 99.00 162.00 262.80 HLMP-2500/2800/2820 Annunciators (.2 x .4 Yellow) IV Bin Category C D E F G H I Min. 5.60 8.40 12.60 18.90 30.60 49.50 80.10 Max. 10.20 15.30 23.10 37.80 61.20 97.90 158.40 HLMP-2550/2835/2855/2870 Annunciators (.2 x .8/.4 x .4 Green) IV Bin Category C D E F G H I Min. 11.30 17.00 25.40 38.10 61.60 99.81 161.73 Max. 20.60 31.00 46.50 76.20 123.20 197.67 320.21 12 HLMP-2885 Annunciators (.4 x .8 Green) IV Bin Category C D E F G H I Min. 22.20 33.40 50.10 75.10 121.10 196.10 313.70 Max. 40.80 61.20 91.90 150.30 242.20 383.50 613.60 HLMP-2950 Bi-Color Annunciators (.4 x .4 HER/Yellow) IV Bin Category C D E F G C D E F G Min. Red Iv Categories 11.30 17.00 25.40 38.10 61.60 Yellow Iv Categories 13.00 18.00 27.00 40.50 65.60 Max. 20.60 31.00 46.50 76.20 123.20 22.00 33.00 50.00 81.00 131.20 HLMP-2965 Bi-Color Annunciators (.4 x .4/.2 x .8 HER/Green) IV Bin Category D E F G B C D E F G H Min. Red Iv Categories 19.70 29.60 44.90 71.90 Green Iv Categories 7.50 11.30 17.00 25.40 38.10 61.60 100.00 Max. 36.10 54.20 88.80 143.80 13.90 20.60 31.00 46.50 76.20 123.20 200.00 Notes: 1. Minimum category D for LPE Green (-2965). 2. In green mode, the devices are to be color binned into standard color bins, per Table 2. (-2685). 13 Color Categories Color Yellow Bin 0 1 3 2 4 5 2 3 4 5 Dominant Wavelength (nm) Min. Max. 579.0 582.5 581.5 585.0 584.0 587.5 586.5 590.0 589.0 592.5 591.5 595.0 573.00 577.00 570.00 574.00 567.00 571.00 564.00 568.00 Green Note: All categories are established for classification of products. Products may not be available in all categories. Please contact your local Avago representatives for further clarification/information. 14 Electrical These light bars are composed of two, four, or eight light emitting diodes, with the light from each LED optically scattered to form an evenly illuminated light emitting surface. The anode and cathode of each LED is brought out by separate pins. This universal pinout arrangement allows the LEDs to be connected in three possible configurations: parallel, series, or series parallel. The typical forward voltage values can be scaled from Figures 4 and 9. These values should be used to calculate the current limiting resistor value and typical power consumption. Expected maximum VF values for driver circuit design and maximum power dissipation, may be calculated using the following VFMAX models: AlGaAs Red HLCP-X100 series VFMAX = 1.8 V + IPeak (20 Ω) For: IPeak ≤ 20 mA VFMAX = 2.0 V + IPeak (10 Ω) For: 20 mA ≤ IPeak ≤ 45 mA HER (HLMP-2300/2600/2900), Yellow (HLMP-2400/2700/2900) and Green (HLMP-2500/2800/ 2900) series VFMAX = 1.6 + IPeak (50 Ω) For: 5 mA ≤ IPeak ≤ 20 mA VFMAX = 1.8 + IPeak (40 Ω) For: IPeak ≥ 20 mA The maximum power dissipation can be calculated for any pulsed or DC drive condition. For DC operation, the maximum power dissipation is the product of the maximum forward voltage and the maximum forward current. For pulsed operation, the maximum power dissipation is the product of the maximum forward voltage at the peak forward current times the maximum average forward current. Maximum allowable power dissipation for any given ambient temperature and thermal resistance (RθJ-A) can be determined by using Figure 2 or 7. The solid line in Figure 2 or 7 (RθJ-A of 600/538 C/W) represents a typical thermal resistance of a device socketed in a printed circuit board. The dashed lines represent achievable thermal resistances that can be obtained through improved thermal design. Once the maximum allowable power dissipation is determined, the maximum pulsed or DC forward current can be calculated. Optical Size of Light Emitting Area 8.89 mm x 8.89 mm 8.89 mm x 3.81 mm 8.89 mm x 19.05 mm 3.81 mm x 19.05 mm Surface Area Sq. Metres 67.74 x 10–6 33.87 x 10 –6 Iv TIME AVG = Sq. Feet 729.16 x 10–6 364.58 x 10 –6 [] IAVG ITEST (ηIPEAK) (Iv Data Sheet) 135.48 x 10–6 72.85 x 10–6 1458.32 x 10–6 781.25 x 10–6 where: ITEST = 3 mA for AlGaAs Red (HLMP-X000 series) 20 mA for HER, Yellow and Green (HLMP-2XXX series) Example: For HLMP-2735 series ηIPEAK = 1.18 at IPEAK = 48 mA The radiation pattern for these light bar devices is approximately Lambertian. The luminous sterance may be calculated using one of the two following formulas: Lv (cd/m2) = Iv (cd) A (m2) π Iv (cd) A (ft2) Refresh rates of 1 kHz or faster provide the most efficient operation resulting in the maximum possible time average luminous intensity. The time average luminous intensity may be calculated using the relative efficiency characteristic of Figure 3 or 8, ηIPEAK, and adjusted for operating ambient temperature. The time average luminous intensity at TA = 25°C is calculated as follows: Iv TIME AVG = [] 12 mA 20 mA (1.18) (35 mcd) Lv (footlamberts) = = 25 mcd 15 The time average luminous intensity may be adjusted for operating ambient temperature by the following exponential equation: Iv (TA) = IV (25°C)e[K (TA Color AlGaAs Red HER Yellow Green K –0.0095/°C –0.0131/°C –0.0112/°C –0.0104/°C –25°C)] Mechanical These light bar devices may be operated in ambient temperatures above +60°C without derating when installed in a PC board configuration that provides a thermal resistance pin to ambient value less than 280°C/W/LED. See Figure 2 or 7 to determine the maximum allowed thermal resistance for the PC board, RθPC-A, which will permit nonderated operation in a given ambient temperature. To optimize device optical performance, specially developed plastics are used which restrict the solvents that may be used for cleaning. It is recommended that only mixtures of Freon (F113) and alcohol be used for vapor cleaning processes, with an immersion time in the vapors of less than two (2) minutes maximum. Some suggested vapor cleaning solvents are Freon TE, Genesolv DES, Arklone A or K. A 60°C (140°F) water cleaning process may also be used, which includes a neutralizer rinse (3% ammonia solution or equivalent), a surfactant rinse (1% detergent solution or equivalent), a hot water rinse and a thorough air dry. Room temperature cleaning may be accomplished with Freon T-E35 or T-P35, Ethanol, Isopropanol or water with a mild detergent. For further information on soldering LEDs please refer to Application Note 1027. Example: Iv (80°C) = (25 mcd)e[-0.0112 (80-25)] = 14 mcd. For product information and a complete list of distributors, please go to our website: www.avagotech.com 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 © 2006 Avago Technologies Limited. All rights reserved. Obsoletes 5988-2221EN AV01-0692EN December 9, 2006
HLMP-2785 价格&库存

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HLMP-2785
  •  国内价格 香港价格
  • 1+42.888641+5.32032
  • 10+29.6496910+3.67803
  • 100+22.86976100+2.83699
  • 500+20.19133500+2.50473
  • 1000+19.367361000+2.40252
  • 2000+18.691532000+2.31868

库存:2559