CD Breuran 4mm FLAT TOP LED LAMPS High Efficiency Red, Yellow, Green Lamps HIGH EFFICIENCY RED HLMP-M200, -M201, -M250, -M251 YELLOW HLMP-M300, -M301, -M350, -M351 GREEN HLMP-MSOO, -M501, -M550, -M551 TECHNICAL DATA SEPTEMBER 1985 Features WIDE VIEWING ANGLE FLAT TOP DIFFUSED AND NONDIFFUSED PACKAGES CHOICE OF BRIGHT COLORS High Efficiency Red Yellow High Performance Green Description This line of solid state lamps is designed for applications requiring lamps with a pleasing, flat, light emitting surface in combination with a 4mm cylindrical shape The red and yellow devices use Gallium Arsenide Phos- phide on Gallium Phosphide light emitting diodes, the green devices use a Gallium Phosphide light emitting diode Select diffused or nondiffused lamps based on the radiation pattern or appearance desired See Figure 1 for detailed radiation pattern differences Axial Luminous Intensity and Viewing Angle ly (med) Test Color Part Number Condition (Material) HLMP- Description Min. Tp. (mA) 261/211) High M200 Tinted, Diffused 3.4 5.0 20 Efmciency M201 Tinted, Diffused, High Brightness 5.4 70 20 138 (GarsP M250 Tinted, Nondiffused 3.4 5.0 10 80 on GaP) M251 Tinted, Nondiffused, High Brightness 5.4 70 10 Yellow M300 Tinted, Diffused 3.6 5.0 20 oeae) M301 Tinted, Diffused, High Brightness 57 70 20 198 M350 Tinted, Nondiffused 3.6 5.0 10 80 M351 Tinted, Nondiffused, High Brightness 5.7 7.0 10 Green M500 Tinted, Diffused 4.2 7.0 20 (GaP) M501 Tinted, Diffused, High Brightness 67 10.0 20 8 M550 Tinted, Nondiffused 4.2 10.0 10 M551 Tinted, Nondiffused, High Brightness 6.7 16.0 10 80 NOTE: 1 61/2 Is the off-axis angle at which the luminous intensity ts half the axial intensity Package Dimensions 5 2.50 (0.109) 1.40 (0.080) 127 (0.050) 2:50 (0,100) 0.560 (0.020) . SQUARE NOMINAL a 2.50 (0.100) 25.40 (1.00) (0 246) MIN (Q.226} , DIMENSIONS IN MILLIMETERS AND {INCHES} Electrical/Optical Characteristics at Ta = 25C COMMON CHARACTERISTICS High Efficiency Red Yellow Green HLMP-M2XX | HLMP-M3XX | HLMP-MS5XX Symbol | Parameter Min. | Typ.| Max. | Min. | Typ | Max.| Min.| Typ. | Max. | Units | Test Conditions PEAK Peak Wavelength 635 583 585 . nm hd Dominant Wavelength 626 585 589 | fin | Note 1 ny Luminous Efficacy 142 500 595 wwe Note 2 Reverse Breakdown . _ Vr Voltage 6.0 f82f | 82] |. | ie= 100 ua Ve Forward Voltage (15 }22| 30 |45 [22] 30} 16/23 ].30 | v liy=toma Ts SpeedofResponse | | 90] |.) }90 | <= f fs00]>-. fons . c Capacitance | 20] fo 1s do T P48}. | pF. [Ve =0t = 1 MHz . de tae LP bd 1 Persagy | dtinetion to 83 Thermal Resistance 120} WO) 4]. }20- | "cyw Cathode Lead NOTES: 1 The dominant wavelength, Aq, Is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color of the device 2 Radiant intensity, le, in watts/steradian, may be found from the equation Ig = ly/ny Where ly is the luminous intensity in candelas and ny ts the luminous efficacy in lumens/watt Absolute Maximum Ratings at Ta = 25C HIGH EFFICIENCY RED, YELLOW AND GREEN LAMPS High Efficiency Red Yellow. Green | Parameter HLMP-M2XxX _HLMP-M3XxX __|. HLPM-M5XX Units Peak Forward Current 90 hy) ek: mA Average Forward. Current!!! __. 25 a) mA DC Current?) 30 (300 mA Power Dissipation|3| TG 135 2495 mw Reverse Voltage (In = 100 2A! 7 BB ie Vv Transient Forward Current!4110 psec Pulse) 500 et 600. | mA Operating Temperature Ra . ve pM +100 pe g Temperatu nge -55to+100 TO Ft 2 . At C Storage Temperature Range eet St 68 to +100 Lead Soldering Temperature 260C for 5-seconds. : (1.6 mm [0.063 in.| from body) oe Pye gt _ NOTES. 1 See Figure 3 to establish pulsed operating conditions 4 The transient peak current is the maximum non-recurring 2 For Red and Green Series derate linearly from 50C atQ5 peak current that can be applied to the device without mA/C For Yellow Series derate linearly from 50C at 02 damaging the LED die and wirebond It 1s not recommended mA/C that the device be operated at peak currents beyond the 3 For Red and Green Series derate power linearly from 25C peak forward current hsted in the Absolute Maximum at 18 mW/C For Yellow Series derate power linearly from Ratings 50C at 16 mw/C Figure 1. Relative Luminous Intensity vs. Angular Displacement 10 7 -YELLOW : - Ta = 25 . 5 HIGH EFFICIENCY 2 RED dud be z \ w (OS 2 Be qt 4 Ww oc 0 a : 500 550 600 650 700 750 WAVELENGTH - nm Figure 2. Relative Intensity vs. Wavelength HIGH EFFICIENCY RED, YELLOW AND GREEN LAMPS HER HLMP-200 Series Yellow HLMP-300 Series Green HLMP-500 Series Ww a <4 c a a a Oo rao se38 i Sare 5 = z = ui xl25 Ps 4209 5 2uxa 3 wat a os % oo 2 0 = < 5 oc aL I 3 | + = |g /= zg al 10 10 100 1,000 10,000 10 20 30 40 50 tp - PULSE DURATION -zs Vp FORWARD VOLTAGE - V Figure 3. Maximum Tolerable Peak Current vs. Figure 4. Forward Current vs. Forward Voltage Pulse Duration. (Ipc MAX as per MAX Ratings.) 50 HIGH 45 EFFICIENCY > > RED %. 40 | EFFICIENCY & at AND & rE 35 Go 22 ir Be 30 hr] Oo wi zx 78 e 25 < Da << 20 a yz Z = 15 I eg gs q a 10 = c = 05 : 0 5 1 15 20 25 30 35 40 45 50 0 10 20 30 40 50 60 70 80 90 100 Ipc DC CURRENT PER LED mA IPEAK PEAK LED CURRENT mA Figure 5. Relative Luminous Intensity vs. Forward Figure 6. Relative Efficiency (Luminous Intensity per Unit Current) Current. Nondiftused Devices. vs. Peak LED Current. Nondiffused Devices. T 13 12 > 20 > 3 3641 Ww ae 3 zg ze 10 3% i So w 09 Zu E we * 07 =6 eZ x < = wi 06 tz = 05 04 a < - a 10 20 30 40 50 60 70 80 90 Ipc - DC CURRENT PER LED - mA Ipeak - PEAK CURRENT PER LED - mA Figure 7. Relative Luminous Intensity vs. Forward Figure 8. Relative Efficiency (Luminous Intensity per Unit Current) Current. Diffused Devices. vs. Peak Current. Diffused Devices. For more information call your local HP sales office listed in the telephone directory white pages Ask for the Components Department Or write to Hewlett-Packard USA PO Box 10301 Palo Alto CA 94303-0890 Europe PO Box 999 1180 AZ Amstelveen The Netherlands Canada 6877 Goreway Drive Mississauga L4V 1M8 Ontario Japan Yokogawa Hewlett-Packard Ltd 329-21 Takaida Higashi Suginar! ku Tokyo 168 Elsewhere in the world write to Hewlett-Packard Intercontinental 3495 Deer Creek Road Palo Alto CA 94304 Printed in USA Data Subject to Change 5954-0908 (9/85;