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| GL390/GL390V GL390/GL390V s Features 1. Thin bow type resin mold package (Resin area : 2.0 x 3.1 x 5.2 mm) 2. Low peak forward voltage ( GL390V) VFM : TYP. 1.9V at IFM=0.5A Thin Bow Type Resin Mold Package Infrared Emitting Diodes s Outline Dimensions (Unit : mm) 3.8 0.3 3.1 g1 Epoxy resin 2.0 + 0.1 - 0.3 1 s Applications 1. Cameras 2. Infrared remote controllers Protruded resin 0.2 + 0.5 - 0.2 5.2 0.3 4.1 0.8 MAX. 2 24.0 MIN. 1 Anode 2 Cathode 2 - 0.5 0.1 (1.0) 1 2 2 - 0.5 0.1 (2.54) g 1 Resin type GL390 * Tolerance : 0.2mm Pale blue transparent resin Blue transparent resin GL390V s Model Lineup Model Radiant intensity (mW/sr) Half intensity angle ( ) GL390 TYP. 13 TYP. 18 GL390V TYP. 16 s Absolute Maximum Ratings Parameter Forward current *1 Peak forward current Reverse voltage Power dissipation Operating temperature Storage temperature *2 Soldering temperature Symbol IF IFM VR P T opr T stg T sol Rating 60 1 6 150 - 25 to 85 - 40 to 85 260 (Ta=25C) Unit mA A V mW C C C *1 Pulse width <=100 s, Duty ratio=0.01 *2 For 3 seconds at the position of 2.6 mm from the resin edge " In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that occur in equipment using any of SHARP's devices, shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device." GL390/GL390V s Electro-optical Characteristics Parameter Forward voltage Peak forward voltage Reverse current *3 (Ta=25 C ) Symbol VF Conditions IF = 50mA IFM = 0.5A VR = 3V IF = 50mA IF = 5mA IF = 5mA VR = 0 f = 1MHz MIN. 7 9 TYP. 1.3 2.2 1.9 13 16 950 45 70 50 300 18 MAX. 1.5 3.5 3.0 10 Unit V V A mW/sr nm nm pF kHz GL390 GL390V GL390 GL390V V FM IR IE P Radiant intensity Peak emission wavelength Half intensity wavelength Terminal capacitance Response frequency Half intensity angle GL390 GL390V Ct fc IF = 20mA *3 I E : Value obtained by converting the value in power of radiant fluxes emitted at the solid angle of 0.01 sr (steradian) in the direction of mechanical axis of the lens portion into 1 sr or all those emitted from the light emitting diode. Fig. 1 Forward Current vs. Ambient Temperature 120 Fig. 2 Peak Forward Current vs. Duty Ratio 10000 5000 Pulse width <=100 s Ta = 25C (mA) 80 FM (mA) 1000 500 100 F 60 40 Peak forward current I Forward current I 100 50 20 0 - 25 10 0 25 50 75 85 100 125 10 -3 10 -2 10 -1 1 Ambient temperature Ta (C ) Duty ratio GL390/GL390V Fig. 3 Spectral Distribution 100 Ta = 25C I F = 5mA Fig. 4 Peak Emission Wavelength vs. Ambient Temperature 1000 Relative radiant intensity (%) 80 Peak emission wavelength p (nm) I F = const. 975 60 950 40 925 20 0 880 900 920 940 960 980 1000 1020 1040 900 - 25 0 25 50 75 100 Wavelength (nm) Ambient temperature Ta ( C ) Fig. 5-1 Forward Current vs. Forward Voltage (GL390) 500 Fig. 5-2 Forward Current vs. Forward Voltage (GL390V) 1000 + 50C + 25C 0C + 85C - 25C 100 Ta= 75C (mA) 50C 100 50 20 10 5 2 1 0 0.5 1.0 1.5 2.0 2.5 F 25C 0C - 20C F Forward current I Forward current I F (mA) 10 1 0 200 3.0 3.5 0.5 1.0 1.5 2.0 F 2.5 3.0 Forward voltage V (V) Forward voltage V (V) Fig. 6 Relative Radiant Flux vs. Ambient Temperature 20 10 Fig. 7 Radiant Intensity vs. Forward Current 1000 Ta=25C Pulse width 100 s Duty ratio=0.01 : DC : Pulse GL390V IF = const. (mW/sr) E 100 Relative radiant flux 5 2 1 0.5 0.2 0.1 - 25 0 25 50 75 100 Radiant intensity I 10 GL390 1 0.1 0.01 0.1 1 10 100 1000 Ambient temperature Ta ( C) Forward current I F (mA) GL390/GL390V Fig. 8-1 Radiation Diagram (Horizontal Direction) - 20 - 30 Relative radiant intensity (%) Fig. 8-2 Radiation Diagram (Vertical Direction) - 40 - 30 - 20 - 10 0 + 10+ 20 + 30 + 40 - 10 0 + 10 + 20 + 30 - 50 Relative radiant intensity (%) + 50 - 40 + 40 - 60 + 60 - 50 - 60 - 70 - 80 - 90 + 50 - 70 + 60 + 70 + 80 - 80 + 70 + 80 0 + 90 - 90 0 + 90 Angular displacement Angular displacement q Please refer to the chapter "Precautions for Use". (Page 78 to 93) |
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