OPTOELECTRONICS 4mm FLAT TOP LAMPS RED (HIGH EFFICIENCY) HLMP-M200/M201 HLMP-M250/M251 YELLOW HLMP-M300/M301 HLMP-M350/M351 GREEN HLMP-M500/M501 HLMP-M550/M551 Bright colors and a wide viewing angle are the outstanding features of the new 4 mm flat top lamps. The cylindrical shape and flat emitting surface make these lamps particularly well suited for applications requiring high light output in minimal space. Replaces Hewlett-Packard devices Wide viewing angle Excellent for backlighting small areas Solid state reliability Compact, rugged, lightweight Choice of tinted nondifftused and tinted diffused package 6.24 (.246) 5.74 (.226) 1.27 (.050) 0.50 (0.200) SQUARE NOMINAL 25.4 (1.00) 1.27 (.050) a | ) 4.11 ( .11 (1.62) 2.54 (.100) 3.86 (1.52) INDICATES _t CATHODE 4 Ie 2.54 (.100) DIMENSIONS IN MILLIMETERS (INCHES) C3001 " (med) TEST TOTAL NUMBER DESCRIPTION MIN TYPE CONDITION(mA) VIEWING ANGLE HLMP-M200 Red, Diffused 34 5.0 20 HLMP-M201 Red, Diffused, High Brightness 54 7.0 20 135 HLMP-M250 Red, Nondiffused 3.4 5.0 10 HLMP-M251 Red, Nondiffused, High Brightness 54 7.0 10 80 HLMP-M300 Yellow, Diffused 3.6 5.0 20 HLMP-M301 Yellow, Diffused, High Brightness 5.7 7.0 20 135 HLMP-M350 Yellow, Nondiffused 3.6 5.0 10 HLMP-M351 Yellow, Nondiffused, High Brightness 5.7 7.0 10 80 HLMP-M500 Green, Diffused 4.2 7.0 20 HLMP-M501 Green, Diffused, High Brightness 67 10.0 20 135 HLMP-M550 Green, Nondiffused 4.2 10.0 10 HLMP-M551 Green, Nondiffused, High Brightness 6.7 16.0 10 80OPTOELECTRONICS 4mm FLAT TOP LAMPS ~~ H.E. RED YELLOW GREEN HLMP-M2XX HLMP-M3XX HLMP-M5XX TEST PARAMETERS UNITS CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX Forward Voltage 2.2 3.0 2.2 3.0 2.3 3.0 V |; = 20 mA Speed of Response 90 90 500 ns Peak Wavelength 635 585 565 nm : 8 Junction to Thermal Resistance 120 120 120 CW Cathode Lead Capacitance 20 15 18 pF V,=0, F=1MHz Reverse Breakdown _ Voltage 5.0 5.0 5.0 Vv In = 100 A YELLOW ~] PARAMETER HLMP-M2XX HLMP-M3XX HLMP-M5XX UNITS Power dissipation ....................2. 135 120 135 mw Derate linearly from 25C ............... 1.6 16 1.6 mw/rc Storage & operating temperature ........ ~55 to +100 55 to +100 55 to +100 C Lead soldering time at 260C ............ 5 5 5 sec. Continuous forward current ............. 35 20 30 mA Peak forward current 1 sec. pulse 0.3% duty cycle 90 60 90 mA Reverse voltage (I, = 100 4A) ........... 5 5 5 Vv Average forward current ............0005 25 20 25 mA Transient forward current 500 500 500 mA (10 sec pulse)OPTOELECTAOQNICS 4mm FLAT TOP LAMPS TYPICAL ELECTRO-OPTICAL CHARACTERIS LES Es 40 50 DIFFUSED 70 80 90 oe 20 40 60 80 100 120 C3002 Fig. 1. Relative Luminous intensity vs. Angular Displacement 1.0 _ a . GREEN | YELLOW |_ HIGH EFFICIENCY Ta = 25C = RED aH Zz Li bE 2 \ ~ 05 Ww > z= / < a Fe) c 0 LA 500 550 600 650 700 750 WAVELENGTH - nm C3003 Fig. 2. Relative intensity vs. WavelengthDPTOELECTRONICS 4mm FLAT TOP LAMPS q ey ad a uw 2 5 Are Cea wae 4 srow Sarg E255 zS52 $22, 9 Sa2 wae? oOo 2 Qo oa an E 2 x eke SYS oll Bz 2s a & B < [= Ss + = t S12 1 N w R " by) ~~ o 10 100 1,000 10,000 tp PULSE DURATION ~ 4s Fig. 3. Maximum Tolerable Peak Current vs. Pulse Duration (l,,-MAX as per MAX Ratings) 70 60 FEFFICIENCY RED YELLOW GREEN 50 40 30 20 10 I, FORWARD CURRENT - mA 1.0 20 30 40 5.0 Vp FORWARD VOLTAGE - V C3008 Fig. 4. Forward Current vs. Forward Voltage 50 45 40 35 HIGH EFFICIENCY 30 RED 25 20 15 1.0 Os RELATIVE LUMINOUS INTENSITY (NORMALIZED AT 10mA) 0 0 5 10 15 20 25 30 35 40 45 50 Ing DC CURRENT PER LED - mA 3006 Fig. 5. Relative Luminous intensity vs. Forward Current. Nondiffused Devices 16 HIGH 16 EFFICIENCY 14 13 1.2 Ww 1.0 09 a8 Tipeax RELATIVE EFFICIENCY 2S NI S a 0 10 20 30 40 50 60 70 80 90 100 Ipgak PEAK LED CUARENT - mA 3007 Fig. 6. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak LED Current. Nondiffused Devices nN o LZ. ~ a = oO RELATIVE LUMINOUS INTENSITY (NORMALIZED AT 20mA) 5 ZA 7 0 5 W % 20 2 30 lpg DC CURRENT PER LED - mA c3008 Fig. 7. Relative Luminous intensity vs. Forward Current. Nondiffused Devices 13 1.2 nea RELATIVE EFFICIENCY 4 0 10 20 3 40 50 60 ~ 80 90 IpEak PEAK CURRENT PER LED - mA 3009 Fig. 8. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak LED Current. Nondiffused Devices