e DIFFUSED T-1%/ OPTOELECTRONICS SOLID STATE LAMPS ORANGE MV5153/4A MV6153/4A YELLOW MV5353/4A MV6353/4A HIGH EFFICIENCY GREEN MV5453/4A MV64530/1 MV6454/ HIGH EFFICIENCY RED MV5753/4A MV6753/4A __ PACKAGE DIMENSIO! jo, 200 (5.08) ner These solid state indicators offer a variety of diffused lens feo srl 22, r effects and color availability. The High Efficiency Red anc (| FLAT DENOTES Yellow devices are made with gallium arsenide CATHODE phosphide on gallium phosphide. The Green units are 350 (8,89) made with gallium phosphide on gallium phosphide. All 330 (8.38) | devices are available with cathode long as MV5X5xX, or ' ctr aa with anode long as MV6X5X. [ 040 ee " cal tial i Z 080 1.87 | 1.00 (25.4) MIN en NOTES: High efficiency GaP light source with various lens | 1. ALL DIMENSIONS ARE IN INCHES (mm) effects Se t 2. sopernses ARE +.010 INCH UNLESS . . ee 3. AN EPOXY MENISCUS MAY EXTEND ABOUT . Versatile mounting on PC board or panel ] .040 (1 mm) DOWN THE LEADS @ Snap in grommet MP82 available as separate order .050 (1.27) item | 100 (2.54) @ Long lifesolid state reliability C1062L m@ Low power requirements = Compact, rugged, lightweight CATHODE ANODE SOURCE LENS LENS LONG LONG COLOR TYPE EFFECT APPLICATION MV5153 MV6153 High Efficiency Red Amber Diffused Wide Beam Direct View MV5154A MV6154A High Efficiency Red Amber Diffused Narrow Beam High Bright Direct View MV5353 MV6353 Yellow Yellow Diffused Wide Beam Direct View MV5354A MV6354A Yellow Yellow Diffused Narrow Beam High Bright Direct View MV5453 MV64530/1 High Efficiency Green Green Diffused Wide Beam Direct View MV5454A = MV6454A High Efficiency Green Green Diffused Narrow Beam High Bright Direct View MV5753 MV6753 High Efficiency Red Red Diffused Wide Beam Direct View MV5754A =MV6754A High Efficiency Red Red Diffused Narrow Beam High Bright Direct View= DIFFUSED T-1% OPTOELECTRONICS SOLID STATE LAMPS perature) 6153 6154A 6353 6354A 64530 6454A 6753 67540 PARAMETER TEST COND. UNITS 5153 S154A 5353 5354A 5453 64531 54544 5753 5754A Forward voltage (V;) typ. |,-=20 mA V 2.0 2.0 21 2.1 2.2 2.2 2.2 2.0 2.0 max. |-=20 mA v 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 Luminous Intensity min. |-=20 mA med 30 100 25 100 3.0 70 100 30 10.0 typ. |.=20 mA med 15 25 15 25 20 20 30 15 25 Peak wavelength |} =20 mA nm 635 635 585 585 562 8562 562 86635 635 Spectral line |-=20 mA nm 45 45 35 35 30 30 30 45 45 half width Capacitance typ. V=0, f=1 MHz pF 45 45 45 45 20 20 20 45 45 Reverse voltage (V,) min. Ig=100 pA V 5 5 5 5 5 5 5 5 5 Reverse current (I,) max. Va=5.0V BA 100 100 100 100 100 100 100 100 #8100 Viewing angle (total) See Fig. 3 degrees 65 24 65 24 75 75 24 65 24 YELLOW ORANGE GREEN Power dissipation at 25C ambient ............. 00.0 cece eee eee 85 mW 120 mW 120 mW Derate tinearly from 25C (MVX453/4A from 50C) ............ 00 ee 1.6 mwW/c 1.6mw/c 1.6 mw/Cc Storage and operating temperatures ............0..00c eee e eee 55C to +100C ~55C to +100C 55C to +100C Lead soldering time at 260C (See Note 2) .............. 2. cece eee 5 sec. 5 sec. 5 sec. Continuous forward current at 25C 206... 20 mA 35 mA 30 mA Peak forward current (1 usec pulse, 0.3% duty cycle) .............. 60 mA 1.0A 90 mA Reverse voltage 6... e een n eee etre nine 5.0V 5.0 V 5.0V 1. The axis of spatial distribution are typically within a 10 cone with reference to the central axis of the device. 2. The leads of the device were immersed in molten solder, at 260C, to a point 1/16 inch (1.6 mm) from the bodyof the device per MIL-S-750, with a dwell time of 5 seconds.& DIFFUSED T-1% : 40 _ 100; SOTTED LINES i < goliNDICATE ELLOWi? 7 = ~ |Putsep Ls 4 S80fOPERATION V7 > 30 bs kK fi 5 Zz 70 ny 2 60 HIGH f/f a & EFFICIENCY / / 7 5 2 50 RED 4 f z 20 o 40 Lh 5 17 G $ Uis | g 30 4 HIGH =10 2 EFFICIENCY 2 x 20 d GREEN | = 5 10 a | 0 0 i 2 3 4 0 20 40 60 80 INSTANTANEOUS FORWARD FOWARD VOLTAGE Vr (VOLTS) CURRENT te(ma) C1831C C6524 Fig. 1. Forward Current vs. Fig. 2. Luminous Intensity Forward Voltage vs. Forward Current eT 120% 30" 100% YELLOW 100% & HI EFF. {\ Hi EFF. 1 80% GREEN RED 90% 5 } \ 20 ar & | | > 60% 70% 50 w 2 40% ! Ly, MV6X54 A MV6xX534 70 a 20%) F D \ MV5X54 5 / / A wets a0 3 \ \ . 520 540 560 580 600 620 640 660 680 50%, 40% 30% 20% 10% O WAVELENGTH (a C10656 19M Cr064C Fig. 3. Spatial Distribution Fig. 4. Spectral Distribution (See Note 1)