et DIFFUSED T-100 OPTOELECTRONICS SOLID STATE LAMPS RED MV50640 YELLOW MV5364X HIGH EFFICIENCY GREEN MV5464X/HLMP-15X3 HIGH EFFICIENCY RED MV5764X/HLMP-130X 3.15+0.2 These solid state indicators offer a variety of color > selection. The High Efficiency Red and Yellow devices 3,010.2 are made with gallium arsenide phosphide on gallium | at phosphide. The High Efficiency Green utilizes an 2 YN Sa improved gallium phosphide light emitting diode. All are 3 Ss zl encapsulated in epoxy packages with diffused lenses. 7 _Y = Their small size, wide viewing angle, and small square leads contribute to their versatility as all-purpose 4 + indicators. 00.5 z NOTES: S 1. ALL DIMENSIONS ARE IN MM. = 2. LEAD SPACING IS MEASURED oS WHERE THE LEADS EMERGE m Replacement for the HLMP-1300 and -1500 product FROM THE PACKAGE. series 3. PROTRUDED RESIN UNDER . . THE FLANGE IS 1.5 mm (0.059") 100 mil lead spacing T-1 MAX, High efficiency GaP light Versatile mounting on PC board or panel Wide viewing angle Diffused tinted lens LUMINOUS INTENSITY SOURCE LENS at 25C (med) TEST TYPE COLOR EFFECT MIN. TYP. CONDITIONS MV50640 Standard Red Red Diffused 0.5 15 |-=20 mA MV53640 Yellow Yellow Diffused 1.0 2.0 I=10 mA MV53641 1.5 3.0 MV53642 2.5 45 MV54643 High Efficiency Green Green Diffused (HLMP-1503) 2.0 5.0 _ MV54644 k=20 mA (HLMP-1523) 6.0 10.0 MV57640 High Efficiency Red Red Diffused (HLMP-1300) 1.0 2.0 MV57641 (HLMP-1301) 2.0 2.5 |=10 mA MV57642 (HLMP-1302) 3.0 4.0 & DIFFUSED T-100 OPTOELECTRONICS SOLID STATE LAMPS MV5464X MV5764X MV50640* MV5364X HI. EFF. HI, EFF. PARAMETER SYMBOL TEST COND. UNITS RED YELLOW GREEN RED Forward voltage . VE |=10 mA Vv 1.6 2.1 2.2* 2.0 2.0 3.0 3.0* 3.0 Peak wavelength p=10 mA 660 585 562 635 Spectral line half width =10mA nm 20 35 30 45 Capacitance . Cc V=0, f=1 MHz pF 23 45 20 45 Reverse voltage in. Ver lh=100 pA Vv 5.0 5.0 5.0 5.0 Viewing angle (total) . 202 See Fig. 3 degrees 90 90 90 */-=20 mA HER/HEG Power dissipation at 25C ambient ....... 00... -. cece cee eens 85 120 mW 120 mW Derate linearly from 50C 0.6... eee cee eens 1.6 mw/C 1.6 mwic 1.6 mw/c Storage and operating temperatures ..........--- 6. seer eee -55C to +100C ~55C to +100C = 55C to + 100C Lead soldering time at 260C (1/16 inch from body) .........---.-- 5 sec. 5 sec. 5 sec. Continuous forward current at 25C 0... eee ees 20 mA 30 mA 30 mA Peak forward current (1 sec pulse, 0.3% duty cycle) ............. 60 mA 1.0A 90 mA Reverse voltage ....... 06. e eee eee eee teen eee ees 5.0V 5.0V 5.0 V a DIFFUSED T-100 40 _ rpoTTED LINES | Vii < go} INDICATE ; tH = ~ "| PULSED Pd ; = 801OPERATIONf YELLOW 4H +30 a - Vi ia - q 7 7 iV 8 x 69 | HI EFF / ff Zz 5 _|stanparp | RED /7/ J 20 50F RED | 717 3 40 HY > & $ 30 } Uff z 2 ] V/s ui ere 310 ~ 20 GREEN 2 Sto Lf a Zz 3 0 1 2 3 4 a 20 40 60 ao INSTANTANEOUS FORWARD FOWARD VOLTAGE Vr (VOLTS) CURRENT Ir imA) C1833 C6524 Fig. 1. Forward Current vs. Fig. 2. Luminous intensity vs. Forward Voltage Forward Current 120% + T | | sto. YELLOW RED RED soar LUI. EFF. 100% 2 GREEN z \ ww 30% kr 80% 2 5 2 ! \ Z 80% o E , Ww we 2 w is 3B 60% = 70% a w x wi > . a & = 40% Wu a $ LVIANALAN 20% \ \ 0 Z ZL } N 1 I \ 520 540 560 580 600 620 640 660 G80 690 50% 30% WAVELENGTH (4)-nm C1064 Fig. 3. Spatial Distribution Fig. 4. Spectral Distribution