agilent technologies HLMP-1301 HLMP-1401 HLMP-1503 HLMP-K401 HLMP-K600 handbook
Contents
1. Ipeak MAX ipc MAX N N D 1 0 10 100 1 000 10 000 tp PULSE DURATION us Figure 10 Maximum Tolerable Peak Figure 11 Relative Luminous Intensity vs Angular Displacement Current vs Pulse Duration Ipc MAX as per MAX Ratings 1 138 T 1 Green Emerald Green Diffused Lamps 80 lt 70 z 4 Z 60 d so o Q a q 3 t t o e I 20 ak 10 T 0 1 0 2 0 3 0 40 5 0 Ve FORWARD VOLTAGE V Figure 12 Forward Current vs Forward Voltage Characteristics E 6c TFA ou I 4 H n amp 8 sH ose JB j PESE ab ln ol th zcrou T z5r H ojl x52 3 Hh 2XZzo E 20xa hy wad AME oz e 22 2 TT t J a ON r4 3 x v s ws B al ON why A z 2i 5A SVISV SV S B xz t i J EIS 1 i 1 0 10 100 1000 10 00 te PULSE DURATION ps Figure 15 Maximum Tolerable Peak Current vs Pulse Duration Ip MAX as per MAX Ratings RELATIVE LUMINOUS INTENSITY NORMALIZED AT 10mA 0 5 130 35 20 25 30 3 40 Ietak PEAK CURRENT PER LED mA Figure 13 Relative Luminous Intensity vs Forward Current RELATIVE EFFICIENCY 0 10 20 30 40 50 60 70 80 90 100 Ipeak PE2. CURRENT TO MAXIMUM TOLERABLE RATIO OF MAXIMUM TOLERABLE PEAK CURRENT 750 mPEAK RELATIVE EFFICENCY L L 4 10 20 30 40 50 60 70 80 90 Ipeax PEAK CURRENT PER LED mA Figure 4 Relative Efficiency Luminous Intensity per Unit Current vs Peak LED Current leak MAX foc MAX A N 1 0 10 100 1 000 10 000 tp PULSE DURATION 4s Figure 5 Maximum Tolerable Peak Figure 6 Relative Luminous Intensity vs Angular Displacement Current vs Pulse Duration Ip MAX as per MAX Ratings 1 137 T 1 Yellow Diffused Lamps gt 2 8 1 z lt s z A zs ag E sz ro 3 29 E o z u o A ET gt N ax E PE lt 3 4 LE 2 i a B z Vp FORWARD VOLTAGE V Ip FORWARD CURRENT mA lpgak PEAK CURRENT mA Figure 7 Forward Current vs Figure 8 Relative Luminous Intensity Figure 9 Relative Efficiency Forward Voltage Characteristics vs Forward Current Luminous Intensity per Unit Current vs Peak Current DC CURRENT TO MAXIMUM TOLERABLE RATIO OF MAXIMUM TOLERABLE PEAK CURRENT
3. Emerald Green NOTES GaP 1 ALL DIMENSIONS ARE IN MILLIMETRES INCHES 2 AN EPOXY MENISCUS MAY EXTEND ABOUT 1mm 0 040 DOWN THE LEADS Note 1 Please refer to Application Note 1061 for information comparing standard green and emerald green light output degradation 1 134 5964 9374E Absolute Maximum Ratings at T4 25 C Parameter HER Orange Yellow Green Units Peak Forward Current 90 60 90 mA Average Forward Current 25 20 25 mA DC Current 30 20 30 mA Reverse Voltage Ip 100 uA 5 5 5 V Transient Forward Current 500 500 500 mA 10 usec Pulse LED Junction Temperature 110 110 110 C Operating Temperature Range 55 to 100 55 to 100 20 to 100 C Storage Temperature Range 55 to 100 Lead Soldering Temperature 1 6 mm 0 063 in from body 260 C for 5 seconds Notes 1 See Figure 5 HER Orange 10 Yellow or 15 Green Emerald Green to establish pulsed operating conditions 2 For Red Orange and Green series derate linearly from 50 C at 0 5 mA C For Yellow series derate linearly from 50 C at 0 2 mA C 3 For Red Orange and Green series derate power linearly from 25 C at 1 8 mW C For Yellow series derate power linearly from 50 C at 1 6 mW C 4 The transient peak current is the maximum non recurring peak current that can be applied to the device without damaging the LED die and wirebond It is not recommended that the device be operated
4. at peak currents beyond the peak forward current listed in the Absolute Maximum Ratings Electrical Characteristics at TJ 25 C Device Test Symbol Description HLMP Min Typ Max Units Conditions ly Luminous Intensity High Efficiency Red 1300 1 3 5 0 mcd Ip 10 mA 1301 2 1 5 5 1302 3 4 7 0 1385 8 6 11 0 Orange K400 1 3 5 0 K401 2 1 5 5 K402 3 4 7 0 Yellow 1400 1 4 5 0 1401 2 2 6 0 1402 3 6 7 0 1485 5 7 10 0 Green 1503 1 0 5 0 1523 2 6 7 0 1585 4 2 8 5 Emerald Green K600 1 0 4 5 1 135 Electrical Characteristics at TA 25 C cont Device Test Symbol Description HLMP Min Typ Max Units Conditions 201 2 Included Angle Between All 60 Deg Ir 10 mA Half Luminous Intensity See Note 1 Points Apgak Peak Wavelength High Efficiency Red 635 nm Measurement Orange 600 at Peak Yellow 583 Green 565 Emerald Green 558 Xa Dominant Wavelength High Efficiency Red 626 nm See Note 2 Orange 602 Yellow 585 Green 569 Emerald Green 560 AAy 2 Spectral Line Halfwidth High Efficiency Red 40 nm Yellow 36 Green 28 Emerald Green 24 ts Speed of Response High Efficiency Red 90 ns Orange 280 Yellow 90 Green 500 Emerald Green 3100 C Capacitance High Efficiency Red 11 pF Vr 0 Orange 4 f 1 MHz Yellow 15 Green 18 Emerald Green 35 R0O0 pw Thermal Resistance All 290 C W Junction to Cathode Lead Ve Forw
5. AK CURRENT PER LED mA Figure 14 Relative Efficiency Luminous Intensity per Unit Current vs Peak LED Current Figure 16 Relative Luminous Intensity vs Angular Displacement 1 139
6. O O HLMP 1308 O O LA eackara T 1 8 mm Diffused HLMP 130X Series HLMP 1385 LED Lamps HLMP 140X Series HLMP 1485 Technical Data BM Do HLMP 1523 HLMP 1585 HLMP K40xX Series HLMP K600 Features Reliable and Rugged High Intensity Available on Tape and Reel Choice of 4 Bright Colors High Efficiency Red Description Orange This family of T 1 lamps is widely Yellow used in general purpose indicator High Performance Green applications Diffusants tints and Popular T 1 Diameter optical design are balanced to Package yield superior light output and Selected Minimum wide viewing angles Several Intensities intensity choices are available in Wide Viewing Angle each color for increased design General Purpose Leads flexibility Package Dimensions Part Minimum Number Intensity Color HLMP Application mcd at 10 mA Material 1300 General Purpose 1 3 High Efficiency 1301 General Purpose 2 1 Red GaAsP on 6 35 1302 High Ambient 3 4 GaP dd 1385 Premium Lamp 8 6 1 02 0 040 NOM K400 General Purpose 1 8 Orange K401 High Ambient 2 1 a on a K402 Premium Lamp 3 4 24 13 1400 General Purpose 1 4 Yellow Mao 1401 General Purpose 2 2 Sed on a 1402 High Ambient 3 6 SS 1485 Premium Lamp 5 7 1503 General Purpose 1 0 Green 1 27 0 050 GaP NOM 1523 High Ambient 2 6 2 54 0 100 1585 Premium Lamp 4 2 NOM K600U1 General Purpose 1 0
7. ard Voltage HER Orange 1 5 1 9 2 4 V Ir 10 mA Yellow 1 5 2 0 2 4 Green 1 5 2 1 2 7 Emerald Green 2 1 2 7 Vn Reverse Breakdown All 5 0 V Tp 100 uA Voltage ny Luminous Efficacy High Efficiency Red 145 lumens See Note 3 Orange 380 Watt Yellow 500 Green 595 Emerald Green 655 Notes 1 01 2 is the off axis angle at which the luminous intensity is half the axial luminous intensity 2 The dominant wavelength A is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color of the device 3 Radiant intensity I in watts steradian may be found from the equation I I n where I is the luminous intensity in candelas and n is the luminous efficacy in lumens watt 1 136 1 0 EMERALD GREEN HIGH PERFORMANCE GREEN 0 5 AlGaAs RED TAz25C HIGH EFFICIENCY RED YELLOW RELATIVE INTENSITY 500 550 600 WAVELENGTH nm Figure 1 Relative Intensity vs Wavelength T 1 High Efficiency Red Orange Diffused Lamps 90 LT 80 E 709 4 1 E 8 4 ui Fe S s NORMALIZED AT 10 mA RELATIVE LUMINOUS INTENSITY ip FOR 5 0 Ve FORWARD VOLTAGE V 0 5 10 15 20 2 39 loc DC CURRENT PER LED mA Figure 2 Forward Current vs Figure 3 Relative Luminous Intensity Forward Voltage Characteristics vs DC Forward Current DC
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