@ LED LIGHT BARS OPTOELECTRONICS HIGH EFFICIENCY RED HLMP-2300/2600 SERIES YELLOW HLMP-2400/2700 SERIES HIGH EFFICIENCY GREEN HLMP-2500/2800 SERIES | These LED Light Bar series are bright, large emitting area, rectangular devices that are designed for backlighting legend/message segmented light-emitting area. Each package style is offered in High Efficiency Red, Yellow, or Green emission color. annunciators. These devices are offered in single-in-line and _] dual-in-line packages that contain single or Large area, uniform, bright light-emitting surfaces Select from six package styles Choice of three colors Categorized for intensity and color m X-Y stackable = Easily driven with I.C.s @ Alternate source for popular backlighting => Tm Ud rm S| components MODELNUMBERS PART NO. COLOR DESCRIPTION PACKAGE PINOUT HLMP-2300 High Efficiency Red 2 LED Single-in-line HLMP-2400 Yellow ; . C. A A HLMP-2500 High EfficiencyGreen 98 19. *0.15 in. Area HLMP-2350 High Efficiency Red 4 LED Single-in-line HLMP-2450 Yellow B B HLMP-2550 High Efficiency Green 0.75 in.x0.18 in. Area HLMP-2655 High Efficiency Red 4 LED Duakin-line HLMP-2755 Yellow 0.35 in. x0.36 in. Area c c HLMP-2855 __ High Efficiency Green , . HLMP-2670 High Efficiency Red HLMP-2770 Yellow Pe 8 0 88 in Area i D D HLMP-2870 High Efficiency Green packag HLMP-2685 High Efficiency Red : : HLMP-2785 Yellow Bee O88 Wn xO 78 in. Area E D HLMP-2885 High Efficiency Green packagOPTOELECTRONICS HIGH EFFICIENCY GREEN YELLOW HLMP-2300/-2500 HLMP-2400/ -2600/-2800 SERIES -2700 SERIES Power dissipation per LED chip (See Note 1) ............. 0.00 e eee 135 mw 85 mW Peak forward current per LED chip, T,=50C (max. pulse width=2 ms) (See Notes 1 and 2) ............. 90 mA 60 mA Average forward per LED chip pulsed conditions, Ta=50C (See Note 2) .0. eee eee eee ees 25 mA 20 mA DC forward current per LED chip, T,=50C (See Note 3) 0. cece 30 mA 25 mA Reverse voltage per LED chip ..........0......0. 00.0.2. eee 6V 6V Storage and operating temperature range ........... 0.62 eee eee eee 40C to +85C -40C to +85C Soldering time at 260C (See Note 4) 0.0... eee eeeee eee 260C for 3 sec. 260C for 3 sec. HIGH EFFICIENCY RED LED LIGHT BARS 1. For HLMP-2300/-2500/-2600/-2800 Series, derate above T,=25C at 1.8 MW/C per LED chip. For HLMP-2400/-2700 Series, derate above T,=50C at 1.8 mW/C per LED chip. 2, See Figure 1/2 to establish pulse operating conditions. 3. For HLMP-2300/-2500/-2600/-2800 Series, derate above T,=50C at 0.5 mA/C per LED chip. For HLMP-2400/-2700 Series derate above T,=60C at 9.5 mA/C per LED chip. 4, Lead immersed to 1/16 in. from body of the device. Maximum unit surface temperature is 140C. 4.953 8.890 (0.195) ["(0.380) 3.810 MAX. 3.175 MIN. 0.508 + 0.076 (0.125) {0.020 + 0.003) TOP A CATHODE END END VIEW A, B 40.160 (0.400) MAX. eli) ae (0.245) roe = MAX. 1 4 {0.040} JL Ls 2.54 TYP. 0.584 + 0.076 (0.100) (0.023 + 0.003) SIDE A PIN NUMBER 1 8 0400) 2 7 ag90 MAX. 3 jg 0.350) _i 4 5 (0.040) SY 6.223 3.890 TYP. (0.245) fe : MAX (0.350) SIDE VIEW C, D c 2.540 DATE (0.100) YP CODE LUMINOUS | INTENSITY 8.890 CATEGORY (0.350) 4 44270 7 4(0.080) | PART 8.890 +r c NUMBER 10 a 0508+0.05 COLORBIN [ 10.160 (0.020) (0.400) TYP. MAX. SIDE VIEW D, E D [ 2.54 ne_.| L_ (0.100) END VIEW D, E 8.890 (0.350) 10.160 (8.400) MAX. E NOTE: DIMENSIONS IN MILLIMETERS (INCHES). TOLERANCES + 0.25 (+ 0.010) UNLESS OTHERWISE INDICATED TYP. 0.884 + 0.076 (0.023 + 0.300) 1 16 2 hs 7 3 14 13.19.05 3 0.38 MAX. 5 H2 8 H4 7 18 (0.750) C2015,OPTOELECTRONICS LED LIGHT BARS PARAMETER SYMBOL -2300 -2350 -2655 -2670 -2685 UNIT CONDITIONS umes Of, & 2& 8 8 & oS kam typ. 30 50 50 50 100 med |,=60 mApK, 1:3 DF. votage yp |OOCOsC(iCC2OA eavelength typ. A, 630 630 630 630 630 nm Seavolonath yp. Ay 626 626 626 626 626 nm Capacitance typ. c 45 45 45 45 45 pF V-=0, f=1 MHz voltage min. Ve 6 6 6 6 6 Vo a= 100 pA Treat ce typ. Oy, 150 150 150 150 150 LED w p HLMP TEST PARAMETER SYMBOL -2400 -2450 -2755 -2770 -2785 UNIT CONDITIONS : min. 6 13 13 13 26 med = |.=20mA intensity typ. \, 20 38 35 35 70 mcd = |,-=20mA typ. 33 60 60 60 415 mcd |-=60 mA pK, 1:3 D.F. Forward max, 2.6 2.6 2.6 2.6 2.6 voltage typ. Ve 24 21 24 24 24 Vo k=20 mA Peak wavelength typ. AB 585 585 585 585 585 nm Dominant wavelength typ. Xa 588 588 588 588 588 nm Capacitance typ. Cc 35 35 35 35 35 pF V.=0, f=1 MHz Reverse . _ voltage min. Ve 6 6 6 6 6 Vv Ip=100 pA Thermal C/hW/ resistance typ. On 150 150 150 150 150 LED chip _ ELECTRO-OPTICAL HARACTERIS cs HIGH EFFICIENCY GREEN TEST PARAMETER SYMBOL -2500 -2550 -2855 -2870 -2885 UNIT CONDITIONS : min. 5 11 11 1 22 mcd 1=20mA allies typ. ly 25 50 50 50 100 med 1-=20mA y typ. 38 75 75 75 150 med 1, =60 mA pK, 1:3 D.F. Forward max. 2.6 2.6 2.6 2.6 2.6 _ voltage typ. Ve 2.2 2.2 2.2 22 22 Vi k=20 mA Peak wavelength typ. As 565 565 565 565 565 nm Dominant wavelength typ. Ag 567 567 567 567 567 nm Capacitance typ. Cc 40 40 40 40 40 pF V,=0, f=1 MHz Reverse . voltage min. Va 6 6 6 6 6 Vv Ig=100 pA Thermal CM/ resistance typ. On 150 150 150 150 150 LED chipOPTOELECTRONICS LED LIGHT BARS Unless Otherwise Specified) eon iit Trt T Wa on a TI x &% 500 |T OPERATION IN THIS REGION [tH i 500 a t+ , i 400 } 4 OPERATI HI HA & 400 -T REQUIRES A REDUCTION | | 1TH 3001 REQUIRES A NEGUS ONY I WwW 300 -- nv Zz E500 [IN Ta MAXIMUM Ill BE 200 IN Ta MAXIMUM zi . 1 S| mM ) 65 SINT. Be son $s 43100 \ 2 200 . 3. Z# 70 et | sf SNS HENS =x Kee 5 50 FA KEN 23 39 AAI SUIT 35 40 UNS Wes NS TT | 3 40 VSS TINE WAHT Pe VETS TIN, x 30 ott % 30 \ +H < o = 2 KD = 20 5 YT We N N N cy 10 10 h 10 us 100 us ims 10 ms 10 ps 100 ps ims 10 ms tp PULSE DURATION s tp PULSE DURATION s C2013 C2014 Fig. 1. Maximum Tolerable Peak Current Fig. 2. Maximum Tolerable Peak Current per LED Chip vs. Pulse Duration per LED Chip vs.Pulse Duration for HLMP-23X0/-26XX/-25X0/-28XX for HLMP-24X0/-27XX Devices 180 _ 'OTSOTTED LINES Vif 160 < gohINDICATE H+ i RED, GREEN = (PULSED Ae f i rN = 80/OPERATION- YELLOW bk 2% 120 N 2 70 oet-h L ss N\ x Hi Ere // Zz N. x 60 AL 2 100 c RED /// == N > / 2F YELLOW N G 50 i << 80 N Qa iy a Lfi =3 6 N z 7H; 25 5 = ifs a N 5 20 = 4 s Z TI wv eer & N yz 20 GREEN 20 g 4 | | Ww 10 0 | 0 10 20 30 40 50 60 70 80 90 0 1 2 3 4 Ta AMBIENT TEMPERATURE C FOWARD VOLTAGE Vr (VOLTS} C2025 C1833A Fig. 3. Maximum Power Dissipation per Fig. 4. Forward Current vs. LED vs. Ambient Temperature Forward Voltage 2 24 22 > 2.0 = - - N g q 18 a wl z 5S 16 5 \ BE 1 z N ga || fer: Y wis N Z a 42 = FZ na > 55 a Peh - \ 2: 1 vege . <= >x& as iu N Ez os c z ~ N a4 NY 0.2 1 %9 30 10 20 40 pC 1 OC CURRENT PER LED-mA DUTY CYCLE % pew C1194C C3077 Fig. 5. Luminous Intensity vs. Fig. 6. Luminous Intensity vs. Duty Cycle Forward CurrentDPTOELECTRONICS LED LIGHT BARS = % RELATIVE OUTPUT -60 -40 -20 0 20 40 60 80 100 TEMPERATURE C C654B Fig. 7. Output vs. Temperature HLMP-2x00 HLMP-2xX50 HLMP-2X55 HLMP-2X70/-2X85 1 1 Cathode 1 Cathode 1 Cathode 1 Cathode 2 1 Anode 1 Anode 1 Anode 1 Anode 3 2 Cathode 2 Cathode 2 Anode 2 Anode 4 2 Anode 2 Anode 2 Cathode 2 Cathode 5 3 Cathode 3 Cathode 3 Cathode 6 3 Anode 3 Anode 3 Anode 7 4 Cathode 4 Anode 4 Anode 8 4 Anode 4 Cathode 4 Cathode 9 5 Cathode 10 5 Anode 11 6 Anode 12 6 Cathode 13 7 Cathode 14 7 Anode 15 8 Anode 16 8 Cathode 3 a 4 A HLMP - 2X00 HLMP - 2X55 HLMP - 2X70 C2016