& CLEAR LENS T-1% DPTOELECTROWICS SOLID STATE LAMPS ORANGE MV5152 MV6152 YELLOW MV5352 MV6352 HIGH EFFICIENCY GREEN MV5452 MV64520 MV64521 HIGH EFFICIENCY RED MV5752 MV6752 MV5X52LEAD CUT CATHODE LONG These Clear Tinted solid state indicators offer high MV6X52XLEAD CUT ANODE LONG brightness and color availability. The High Efficiency Red 200 (6.08) REF. and Yellow devices are made with gallium arsenide 180 (4.57) 230 _ (254) phosphide on gallium phosphide. The High Efficiency eo \ r Green units are made with gallium phosphide on gallium | oY THO EOTES phosphide. All devices are available with cathode long as | MV5XS5xX, or with anode long as MV6X5X. 350 (8.89) -330 (8.38) t 0.17 (0.43) gg | [_ 040 Bro eB) 41.02) . | @ High on-axis light output @ High efficiency GaP light sources 1.00 (25,4) MIN. . + 0800127) | Versatile mounting on PC board or panel , 1 ALL DIMENSIONS ARE IN INCHES (mm) = Snap in grommet MP52 available as separate order 2, TOLERANCES ARE +.010" INCH UNLESS | ~|- L SPECIFIED item ; 3. AN EPOXY MENISCUS MAY EXTEND ABOUT i | 040" [ mm) DOWN THE LEADS = Long lifesolid state reliability m Low power requirements | 050 (1.27) . . _ 100 (2.543 = Compact, rugged, lightweight C1062L. _PHYSICAL CHARACTERISTICS __ a i CATHODE ANODE SOURCE LENS LENS LONG LONG COLOR TYPE EFFECT APPLICATION MvV5152 MV6152 High Efficiency Red Amber Clear Point Source Backlighting MV5352 MV6352 Yellow Yellow Clear Point Source Backlighting MV5452 MV64520 High Efficiency Green Green Clear Point Source Backlighting MV64521 High Efficiency Green Green Clear Point Source Backlighting MV5752 MV6752 High Efficiency Red Red Clear Point Source Backlighting& CLEAR LENS T-134 OPTOELECTRONICS SOLID STATE LAMPS & Mv6152_ MV6352. = MV64520 MV6752 PARAMETER TEST COND. UNITS MV5152 MV5352 MV5452 MV64521 MV5752 Forward voltage (V,) typ. 1,=20 mA Vv 2.0 24 2.2 2.2 2.0 max. |;=20 mA Vv 3.0 3.0 3.0 3.0 3.0 Luminous Intensity min. =20 mA med 17.0 10.0 12.0 30.0 17.0 typ. |=20 MA med 100.0 90.0 25.0 100.0 100.0 Peak wavelength |=20 mA nm 635 585 562 562 635 Spectral line |-=20 mA nm 45 35 30 30 45 half width Capacitance typ. V=0, f=1 MHz pF 45 45 20 20 45 Reverse voltage (V.) min. p= 100 pA Vv 5 5 5 5 5 Reverse current (lq) max. Va=5.0 V pA 100 100 100 100 100 Viewing angle (total) See Fig. 4 degrees 28 28 35 35 28 RED YELLOW AND H. E. RED GREEN Power dissipation ...... 00... 0c cece cee eee 85 mW 120 mW 120 mw Derate linearly from 25C (MVX452/4A from 50C) ................ 1.6 mw/PC 1.6 mwW/C 1.6 mW/C Storage and operating temperatures .................0.-.220 0005 -55C ta +100C -55C to +100C + 55C to +100C Lead soldering time at 260 C (See Note 2) ............ cece eee 5 sec. 5 sec. 5 sec. Continuous forward current... 0.0... cece ees 20 mA 35 mA 30 mA Peak forward current (1 usec pulse, 0.3% duty cycle) .............. 60 mA 1.0A 90 mA Reverse voltage 0.6... ek eee ete eees 5.0V 5.0V 5.0 V 1. The axis of spatial distribution are typically within a 10 cone within 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 body of the device per MII-S-750, with a dwell time of 5 seconds.ao CLEAR LENS T-1%4 QPTOELECTROWICS SOLID STATE LAMPS 40 10056 LINES go} INDICATE 5 [PULSED w oa HIGH 60 EFFICIENCY KR OQ oO EFFICIENCY 20 GREEN PEAK FOWARD CURRENT Ir (mA) s LUMINOUS INTENSITY 0 1 2 3 4 o 20 40 60 80 INSTANTANEOUS FORWARD FOWARD VOLTAGE Vr (VOLTS) CURRENT I(mA) C1831 C6524 Fig. 1. Forward Current vs. Fig. 2. Luminous Intensity vs. Forward Voltage Forward Current MV5454 120% 100% YELLOW & HI EFF. {\ Hi EFF. 100% ! GREEN RED + 80% / z= 90% 2 | j a E yn ZG 80% a 60% Ee 2 70% w 9 w E 40% > i 4 60% x i / / \ a wr 20% yy / 0 \ XN 50% 40% 30% 20% 10% 0 520 540 560 580 600 620 640 660 680 C1066 WAVELENGTH (A) - nm C1064 Fig. 3. Spatial Distribution (Note 1) Fig. 4. Spectral Distribution