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HAY1105W-TR

HAY1105W-TR

  • 厂商:

    STANLEY

  • 封装:

    3216型

  • 描述:

    LED YELLOW CLEAR 1206 SMD

  • 数据手册
  • 价格&库存
HAY1105W-TR 数据手册
1105W Series Single Color 3216 Dome Lenz Type Features Package 3216 Dome Lens Type, Water Clear resin Product features Outer Dimension 3.2 x 1.6 x 1.85mm ( L x W x H ) Temperature range Storage Temperature : -40℃~100℃ Operating Temperature : -40℃~120℃ Lead–free soldering compatible RoHS compliant Dominant wavelength Green Yellow Green Yellow Orange Red : 558nm(HBG),567nm(HPG) : 572nm(HPY) : 590nm(HAY) : 606nm(HAA) : 647nm(HBR) Half Intensity Angle HBG,HPG,HPY,HAY,HAA : 40 deg. HBR : 50 deg. Die materials HBG,HPG,HPY : GaP HAY,HAA : GaAsP HBR : GaAlAs Rank grouping parameter Sorted by luminous intensity per rank taping Assembly method Auto pick & place machine (Auto Mounter) Soldering methods Reflow soldering and manual soldering Taping and reel 2,000pcs per reel in a 8mm width tape. (Standard) Reel diameter:φ180mm ESD More than 2kV (HBM) Recommended Applications Amusement Equipment, Electric Household Appliances, OA/FA, Other General Applications 2007.8.31 Page 1 1105W Series Single Color 3216 Dome Lenz Type Color and Luminous Intensity Part No. Material Emitted Color (Ta=25℃) Lens Color Dominant Wavelength Luminous Intens ity λd (nm) Iv (mc d) T YP. IF MIN. T YP. IF HBG1105W Ga P Gre e n 558 20 6 12 20 HP G1105W Ga P Gre e n 567 20 15 30 20 HP Y1105W Ga P Ye llow Gre e n 572 20 20 50 20 HAY1105W Ga AsP Ye llow 590 20 10 20 20 HAA1105W Ga AsP Ora ng e 606 20 10 20 20 HBR1105W Ga AlAs Re d 647 20 25 50 20 2004.10.29 Wa te r Cle a r Page 2 1105W Series Single Color 3216 Dome Lenz Type Absolute Maximum Ratings Item Symbol Power Dissipation Forward Current (Ta=25℃) Absolute Maximum Ratings Unit HBG HPG HPY HAY HAA HBR Pd 75 75 75 75 75 60 mW IF 30 30 30 30 30 30 mA IFRM 70 70 70 70 70 70 mA ⊿IF 1.00 1.00 1.00 1.00 1.00 1.00 mA/℃ ⊿IFRM 0.29 2.33 2.33 2.33 2.33 2.33 mA/℃ Reverse Voltage VR 4 4 4 4 4 4 V Operating Temperature Topr -40~+ 100 ℃ Storage Temperature Tstg -40~+ 120 ℃ Pulse Forward Current ※1 Derating (Ta=75℃ or higher) ※1 IFRMMeasurement condition : Pulse Width≦1ms., Duty≦1/20. 2004.10.29 Page 3 1105W Series Single Color 3216 Dome Lenz Type Electro-Optical Characteristics Item Forward Voltage Conditions IF=20mA (Ta=25℃) Characteristics Symbol HBG HPG HPY HAY HAA HBR TYP. 2.1 2.1 2.1 2.2 2.2 1.7 MAX. 2.5 2.5 2.5 2.5 2.5 2.0 VF Unit V Reverse Current VR =4V IR MAX. 100 100 100 100 100 100 μA Peak Wavelength IF=20mA λp TYP. 555 560 570 580 605 660 nm IF=20mA λd TYP. 558 567 572 590 606 647 nm IF=20mA ⊿λ TYP. 30 30 30 30 30 30 nm IF=20mA 2θ1/2 TYP. 40 40 40 40 40 50 deg. Dominant Wavelength Spectral Line Half Width Half Intensity Angle 2004.10.29 Page 4 1105W Series Single Color 3216 Dome Lenz Type Luminous Intensity Rank (Ta=25℃) IV(mcd) Rank A B C D E HBG HPY HAY HBR HPG HAA IF=20mA IF=20mA IF=20mA IF=20mA IF=20mA IF=20mA MIN. MAX. MIN. MAX. MIN. MAX. MIN. MAX. MIN. MAX. MIN. MAX. 6.0 8.5 12.0 17.0 24.0 12.0 17.0 24.0 34.0 - 15.0 21.0 30.0 42.0 60.0 30.0 42.0 60.0 84.0 - 20.0 40.0 28.0 56.0 40.0 80.0 56.0 112.0 80.0 - 10.0 14.0 20.0 28.0 40.0 20.0 28.0 40.0 56.0 - 10.0 14.0 20.0 28.0 40.0 20.0 25.0 50.0 28.0 35.0 70.0 40.0 50.0 100.0 56.0 70.0 140.0 100.0 - ※ Please contact our sales staff concerning rank designation. 2004.10.29 Page 5 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HBG) Spectral Distribution Spatial Distribution Example Relative Intensity vs. Wavelength Condition : Ta = 25℃, IF = 20mA Relative Intensity Condition : Ta = 25℃ Wavelength [nm] Forward Voltage vs. Forward Current Forward Current vs. Relative Intensity Forward Voltage VF(V) 2004.10.29 Condition : Ta = 25℃ Relative Intensity Forward Current IF(mA) Condition : Ta = 25℃ Forward Current IF(mA) Page 6 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HBG) Derating Ambient Temperature vs. Relative Intensity Condition : IF=20mA Relative Intensity Maximum Forward Current : IF MAX. (mA) Ambient Temperature vs. Maximum Forward Current Repetition Frequency : f ≧ 50Hz Ambient Temperature : Ta(℃) Ambient Temperature : Ta(℃) Power Dissipation vs. Ambient Temperature Pulse Width vs. Maximum Tolerable Peak Current IF peak Max./IF DC MAX. Power Dissipation : Pd (mW) Condition : Ta = 25℃ Ambient Temperature : Ta(℃) 2004.10.29 Pulse Width : tw (μs) Page 7 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HPG) Spectral Distribution Spatial Distribution Example Relative Intensity vs. Wavelength Condition : Ta = 25℃, IF = 20mA Relative Intensity Condition : Ta = 25℃ Wavelength [nm] Forward Voltage vs. Forward Current Forward Current vs. Relative Intensity Forward Voltage VF(V) 2004.10.29 Condition : Ta = 25℃ Relative Intensity Forward Current IF(mA) Condition : Ta = 25℃ Forward Current IF(mA) Page 8 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HPG) Derating Ambient Temperature vs. Relative Intensity Condition : IF=20mA Relative Intensity Maximum Forward Current : IF MAX. (mA) Ambient Temperature vs. Maximum Forward Current Repetition Frequency : f ≧ 50Hz Ambient Temperature : Ta(℃) Ambient Temperature : Ta(℃) Power Dissipation vs. Ambient Temperature Pulse Width vs. Maximum Tolerable Peak Current IF peak Max./IF DC MAX. Power Dissipation : Pd (mW) Condition : Ta = 25℃ Ambient Temperature : Ta(℃) 2004.10.29 Pulse Width : tw (μs) Page 9 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HPY) Spectral Distribution Spatial Distribution Example Relative Intensity vs. Wavelength Condition : Ta = 25℃, IF = 20mA Relative Intensity Condition : Ta = 25℃ Wavelength [nm] Forward Voltage vs. Forward Current Forward Current vs. Relative Intensity Forward Voltage VF(V) 2004.10.29 Condition : Ta = 25℃ Relative Intensity Forward Current IF(mA) Condition : Ta = 25℃ Forward Current IF(mA) Page 10 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HPY) Derating Ambient Temperature vs. Relative Intensity Condition : IF=20mA Relative Intensity Maximum Forward Current : IF MAX. (mA) Ambient Temperature vs. Maximum Forward Current Repetition Frequency : f ≧ 50Hz Ambient Temperature : Ta(℃) Ambient Temperature : Ta(℃) Power Dissipation vs. Ambient Temperature Pulse Width vs. Maximum Tolerable Peak Current IF peak Max./IF DC MAX. Power Dissipation : Pd (mW) Condition : Ta = 25℃ Ambient Temperature : Ta(℃) 2004.10.29 Pulse Width : tw (μs) Page 11 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HAY) Spectral Distribution Spatial Distribution Example Relative Intensity vs. Wavelength Condition : Ta = 25℃, IF = 20mA Relative Intensity Condition : Ta = 25℃ Wavelength [nm] Forward Voltage vs. Forward Current Forward Current vs. Relative Intensity Forward Voltage VF(V) 2004.10.29 Condition : Ta = 25℃ Relative Intensity Forward Current IF(mA) Condition : Ta = 25℃ Forward Current IF(mA) Page 12 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HAY) Derating Ambient Temperature vs. Relative Intensity Condition : IF=20mA Relative Intensity Maximum Forward Current : IF MAX. (mA) Ambient Temperature vs. Maximum Forward Current Repetition Frequency : f ≧ 50Hz Ambient Temperature : Ta(℃) Ambient Temperature : Ta(℃) Power Dissipation vs. Ambient Temperature Pulse Width vs. Maximum Tolerable Peak Current IF peak Max./IF DC MAX. Power Dissipation : Pd (mW) Condition : Ta = 25℃ Ambient Temperature : Ta(℃) 2004.10.29 Pulse Width : tw (μs) Page 13 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HAA) Spectral Distribution Spatial Distribution Example Relative Intensity vs. Wavelength Condition : Ta = 25℃, IF = 20mA Relative Intensity Condition : Ta = 25℃ Wavelength [nm] Forward Voltage vs. Forward Current Forward Current vs. Relative Intensity Forward Voltage VF(V) 2004.10.29 Condition : Ta = 25℃ Relative Intensity Forward Current IF(mA) Condition : Ta = 25℃ Forward Current IF(mA) Page 14 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HAA) Derating Ambient Temperature vs. Relative Intensity Condition : IF=20mA Relative Intensity Maximum Forward Current : IF MAX. (mA) Ambient Temperature vs. Maximum Forward Current Repetition Frequency : f ≧ 50Hz Ambient Temperature : Ta(℃) Ambient Temperature : Ta(℃) Power Dissipation vs. Ambient Temperature Pulse Width vs. Maximum Tolerable Peak Current IF peak Max./IF DC MAX. Power Dissipation : Pd (mW) Condition : Ta = 25℃ Ambient Temperature : Ta(℃) 2004.10.29 Pulse Width : tw (μs) Page 15 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HBR) Spectral Distribution Spatial Distribution Example Relative Intensity vs. Wavelength Condition : Ta = 25℃, IF = 20mA Relative Intensity Condition : Ta = 25℃ Wavelength [nm] Forward Voltage vs. Forward Current Forward Current vs. Relative Intensity Forward Voltage VF(V) 2004.10.29 Condition : Ta = 25℃ Relative Intensity Forward Current IF(mA) Condition : Ta = 25℃ Forward Current IF(mA) Page 16 1105W Series Single Color 3216 Dome Lenz Type Technical Data(HBR) Derating Ambient Temperature vs. Relative Intensity Condition : IF=20mA Relative Intensity Maximum Forward Current : IF MAX. (mA) Ambient Temperature vs. Maximum Forward Current Repetition Frequency : f ≧ 50Hz Ambient Temperature : Ta(℃) Ambient Temperature : Ta(℃) Power Dissipation vs. Ambient Temperature Pulse Width vs. Maximum Tolerable Peak Current IF peak Max./IF DC MAX. Power Dissipation : Pd (mW) Condition : Ta = 25℃ Ambient Temperature : Ta(℃) 2004.10.29 Pulse Width : tw (μs) Page 17 1105W Series Single Color 3216 Dome Lenz Type Package Dimensions (Unit: mm) Weight: (7.81)mg Recommended Soldering Pattern Surface Mount (Unit: mm) Reverse Mount Taping Specification (Unit: mm) Quantity : 2,000pcs/ reel (standard) 1105W-TR (Surface Mount) 2005.7.6 1105W-RR (Reverse Mount) Page 18 1105W Series Single Color 3216 Dome Lenz Type Reflow Soldering Conditions 1) The above profile temperature gives the maximum temperature of the LED resin surface. Please set the temperature so as to avoid exceeding this range. 2) Total times of reflow soldering process shall be no more than 2 times. When the second reflow soldering process is performed, intervals between the first and second reflow should be short as possible (while allowing some time for the component to return to normal temperature after the first reflow) in order to prevent the LED from absorbing moisture. 3) Temperature fluctuation to the LED during the pre-heating process shall be minimized. Manual Soldering Conditions Iron tip temp. Soldering time and frequency 2010.7.31 350 ℃ 3 s 1 time (MAX.) (MAX.) (MAX.) Page 19 1105W Series Single Color 3216 Dome Lenz Type Reliability Testing Result Reliability Testing Result Room Temp. Operating Life Applicable Standard EIAJ ED4701/100(101) Testing Conditions Duration Ta = 25℃, IF = Maxium Rated Current Failure 1,000 h 0/25 Twice 0/25 200 cycles 0/25 Ta = 100℃, IF = 5mA 1,000 h 0/25 Ta = 60±2℃, RH = 90±5%, IF = 30mA 1,000 h 0/25 Pre-heating : 150~180℃ 120s Max. Operation Heating : 230℃ 40s Max. Peak Temperature : 260℃ Minimum Rated Storage Temperature(30min) ~Normal Temperature(15min) ~Maximum Rated Storage Temperature(30min) ~Normal Temperature(15min) Resistance to Soldering Heat EIAJ ED4701/300(301) Temperature Cycling EIAJ ED4701/100(105) High Temp. Operating Life Humidity Temp. Operating Life EIAJ ED4701/100(101) EIAJ ED4701/100(102) High Temp. Storage Life EIAJ ED4701/200(201) Ta = Maximum Rated Storage Temperature 1,000 h 0/25 Low Temp. Storage Life EIAJ ED4701/200(202) Ta = Minimum Rated Storage Temperature 1,000 h 0/25 Vibration, Variable Frequency EIAJ ED4701/400(403) 98.1m/s (10G), 100 ~ 2KHz sweep for 20min., XYZ each direction 2h 0/10 2 Failure Criteria Items Symbols Luminous Intensity Iv Forward Voltage VF Reverse Current IR Cosmetic Appearance - 2007.8.31 Conditions IF Value of each product Luminous Intensity IF Value of each product Forward Voltage VR = Maximum Rated Reverse Voltage V - Failure criteria Testing Min. Value < Spec. Min. Value x 0.5 Testing Max. Value ≧ Spec. Max. Value x 1.2 Testing Max. Value ≧ Spec. Max. Value x 2.5 Occurrence of notable decoloration, deformation and cracking Page 20 1105W Series Single Color 3216 Dome Lenz Type Special Notice to Customers Using the Products and Technical Information Shown in This Data Sheet 1) The technical information shown in the data sheets are limited to the typical characteristics and circuit examples of the referenced products. It does not constitute the warranting of industrial property nor the granting of any license. 2) For the purpose of product improvement, the specifications, characteristics and technical data described in the data sheets are subject to change without prior notice. Therefore it is recommended that the most updated specifications be used in your design. 3) When using the products described in the data sheets, please adhere to the maximum ratings for operating voltage, heat dissipation characteristics, and other precautions for use. We are not responsible for any damage which may occur if these specifications are exceeded. 4) The products that have been described to this catalog are manufactured so that they will be used for the electrical instrument of the benchmark (OA equipment, telecommunications equipment, AV machine, home appliance and measuring instrument). The application of aircrafts, space borne application, transportation equipment, medical equipment and nuclear power control equipment, etc. needs a high reliability and safety, and the breakdown and the wrong operation might influence the life or the human body. Please consult us beforehand if you plan to use our product for the usages of aircrafts, space borne application, transportation equipment, medical equipment and nuclear power control equipment, etc. except OA equipment, telecommunications equipment, AV machine, home appliance and measuring instrument. 5) In order to export the products or technologies described in this data sheet which are under the “Foreign Exchange and Foreign Trade Control Law,” it is necessary to first obtain an export permit from the Japanese government. 6) No part of this data sheet may be reprinted or reproduced without prior written permission from Stanley Electric Co., Ltd. 7) The most updated edition of this data sheet can be obtained from the address below: http://www.stanley-components.com 2007.8.31 Page 21
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