DPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS ed HIGH EFFICIENCY GREEN MAN3480A ORANGE MAN3680A The MAN3480A, MAN3680A, MAN78A, MAN3880A and MAN3980A are common cathode displays which provide a choice of color of LED displays. They are pin and functional replacements for the 0.300-inch Hewlett- Packard common cathode displays. The series is complementary to the MAN3400A, MAN3600A, MAN70A, MAN3800A and MAN3900A families of displays. They can be mounted in arrays with 0.400-inch (10.16 mm) center-to-center spacing. Yellow and High Efficiency Green displays are constructed with Grey face and neutral segment color. Red displays have Black faces and Red segment color. Others have face and segment color corresponding to the emitted light. RED MAN78A YELLOW MAN3880A HIGH EFFICIENCY RED MAN3980A = Hewlett-Packard compatible common cathode displays Red, Yellow, Green, Orange and High Efficiency Red Fast switching excellent for multiplexing Low power consumption Boid solid segments that are highly legible Solid state reliability long operation life Impact resistant plastic construction Directly compatible with integrated circuits High brightness with high contrast Categorized for Luminous Intensity (See Note 6) Standard 10 pin dual-in-line package configuration Wide viewing angle...150 @ Digital readout displays @ Instrument panels m Point of sale terminals B Calculators @ Digital clocks PART NO. COLOR DESCRIPTION MAN3480A High Etficiency Green Common Cathode; Right Hand Decimal MAN3680A Orange Common Cathode; Right Hand Decimal MAN78A Red Common Cathode; Right Hand Decimal MAN3880A Yellow Common Cathode; Right Hand Decimal MAN3980A High Efficiency Red Common Cathode; Right Hand DecimalOPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS iti For optimum ON and OFF contrast, one of the following filters or equivalents should be used over the display: DEVICE TYPE FILTER DEVICE TYPE FILTER Panelgraphic Green 48 MAN3980A4 Panelgraphic Red 60 MAN3480A Homalite 100-1440 Green MAN78A Homalite 100-1605 Panelgraphic Scarlet 65 Panelgraphic Yellow 25 or Amber 23 MAN3680A Homalite 100-1670 MANS880A Homalite 100-1720 or 100-1726 Panelgraphic Grey 10 Homalite 100-1266 Grey TTT MAX. TEST CONDITIONS UNITS MAN3480A Luminous Intensity, digit average 750 3200 ucd F=1dmMA (See Notes 1 and 3) 900 4000 ped |-=60 mA peak, 1:6 DF Peak emission wavelength 562 nm Spectral line half width 30 nm Forward voltage Segment 2.2 3.0 v |-=20 mA Decimal point 2.2 3.0 Vv (-=20 mA Dynamic resistance Segment 12 a |=20 mA Decimal point 12 Oo |-=20 mA Capacitance Segment 40 pF V=0 Decimal point 40 pF V=0 Reverse current Segment 100 BA Va=5.0V Decimal point 100 pA Va=5.0 V MAN3680A Luminous Intensity, digit average 510 1800 ped =10mA (See Note 1 and 3) Peak emission wavelength 630 nm Spectral line half width 40 nm Forward voltage Segment 2.5 Vv =20 mA Decimal point 2.5 Vv =20 mA Dynamic resistance Segment 26 a |-=20 mA Decimal point 26 2 |-=20 mA Capacitance Segment 35 pF v=0 Decimal point 35 pF V=0 Reverse current Segment 100 vA V.=5.0V Decimal point 100 BA Va=5.0VOPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS Decimal point MAN78A ' Luminous Intensity, digit average 125 350 ped =10 mA (See Note 1 and 3) Peak emission wavelength 660 nm Spectral line half width 20 nm Forward voltage Segment 2.0 Vv |-=20 mA Decimal point 2.0 Vv |-=20 mA Dynamic resistance Segment 2 Q I= 100 MA Decimal point 2 QO |= 100 mA Capacitance Segment 35 80 pF V=0 Decimal point 35 80 pF V=0 Reverse current Segment 100 pA p=5.0V Decimal point 100 LA Va=5.0V MAN3880A Luminous Intensity, digit average 450 1700 ucd l-=10 mA (See Note 1 and 3) Peak emission wavelength 585 nm Spectral line half width 40 nm Forward voltage Segment 3.0 Vv |-=20 mA Decimal point 3.0 Vv |-=20 mA Dynamic resistance Segment 26 ce -=20 MA Decimal point 26 a =20 mA Capacitance Segment 35 pF v=0 Decimal point 35 pF V=0 Reverse current Segment 100 pA Va=5.0 V Decimal point 100 BA V,=5.0 V MAN3980A Luminous Intensity, digit average 450 1900 ped l=10mA (See Note 1 and 3) Peak emission wavelength 635 nm Spectral line half width 40 nm Forward voltage Segment 2.5 Vv |=20 mA Decimal point 2.5 Vv |-=20 mA Dynamic resistance Segment 26 Q |-=20 mA Decimal point 26 2 -=20 mA Capacitance Segment 35 pF V=0 Decimal point 35 pF V=0 Reverse current Segment 100 BA Va=5.0V 100 pA Va=5.0V0.300-INCH OPTOELECTRONICS SEVEN SEGMENT DISPLAYS ORANGE YELLOW HIGH EFF. GREEN RED HIGH EFF. RED MAN3680A MAN3680A MAN3480A MAN78A MAN3980A Power dissipation at 25C ambient ....................... 600 mW 480 mW 600 mW Derate linearly from 50C... cence eee ee -12 mw/C -6.9 mW/C 10.3 mW/C Storage and operating temperature ...................... 40C to +85C 40C to + 85C -40C to +85C Continuous forward current Total eee cece erent een eee nee 240 mA 240 mA 200 mA Per segment. ......... 0.66 e ccc eee eee eee nes 30 mA 30 mA 25 mA Decimal point... . 0.0 cee cece ence e eens 30 mA 30 mA 25 mA Reverse voltage Per segment... 2.0.0.0... 6. teens 6.0V 6.0V 6.0V Decimal point... eee eee nets 6.0V 6.0V 6.0V Soldering time at 260C (See Notes 4 and 5)............... 5 sec. 5 sec. 5 sec. GREEN/Y ELLOW Thermal resistance junction to free air ,, 160C/W Wavelength temperature coefficient (case temperature)... 0... cnc eee center erecta eee etnenebnennes 1.0A/C Forward valtage temperature coefficient SN -1.5mVv/c RED/ORANGE/HIGH EFFICIENCY RED Thermal resistance junction to free air Py... cece cece cee eee ecbneeneetetenenevnbuennns 160C/W Wavelength temperature coefficient (case temperature)... 0... cece ence eee e nnn teen ee er beeen tenes 1.0A/C Forward valtage temperature coefficient -2.0 mv/PC . The digit average Luminous intensity is obtained by summing the Luminous Intensity of each segment and dividing by the total number of segments. Intensity will not vary more than +33.3% between ail segments within a digit. The curve in Figures 3, 6, 9, and 12 is normalized to the brightness at 25C to indicate the relative Luminous Intensity over the operating temperature range. The decimal point is designed to have the same surface brightness as the segments, therefore, the Luminous intensity of the decimal point is .3 times the Luminous Intensity of the segments, since the area of the decimal point is .3 times the area of the average segment. Leads of the device immersed to 1/16 inch from the body. Maximum device surface temperature is 140C. For flux removal, Freon TF, Freon TE, lsoproponal or water may be used up to their boiling points. All displays are categorized for Luminous Intensity. The intensity category is marked on each part as a suffix letter to the part number. AaOPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS 100" 254mm 10" PIN #1 0.370" [P| fe IF (7.62 mr) Pl 386" C420A (9.80 mm} +.010" PART No. CODE MANXXXX = PART No. YXX = DATE CODE 2 = LIGHT INTENSITY CAT. No. zv 92 ELECTRICAL CONNECTIONS OOONOOAAWN = = Common Cathode Anode F Anode G Anode E Anode D Common Cathode Anode D.P. Anode C Anode B Anode AOPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS TT me 4 _ TYPICAL CHARACTERISTIC CURVE Se S ee 100 7 40 < 90} 7 z NORMALIZED AT I, = 10 mA = eof / R | 4 / 3.0 + + 1 70h -f | a MAN3480A bt ! 4 z 60 te ~ a i ZL sop- + ee g 20 B a-- , -f ----_ 3 a ny 30}- 7 Z 10 = 20 (DOTTED LINE 4 S INDICATES g 10 PULSED OPERATION SEE FIGS. 3, 5) ! 1.0 2.0 3.0 4.0 o 5 10 1% 20 2 30 FORWARD VOLTAGE Vr VOLTS; 1697 OC FORWARD CURRENT ~ |; (mA) C1702 Fig. 1. Forward Current Fig. 2. Relative Luminous intensity vs. Forward Voltage vs. DC Forward Current 130 . r 100 NORMALIZED 90 T LJ AT 25C MANI60A _ 120 + t 80 f MANJe80a x MAN3480A 70 & 110}. j g 6 E 100 _ 90 ] w = 40 5 % NN 30 Z wy \ 20 7 10 70 -55 -25 0 2 50 7 100 TEMPERATURE - T, (C) C1700 Fig. 3. Relative Luminous intensity vs. Temperature o 4 B 12 16 70 24 28 32 3640 FORWARD VOLTAGE (veh = VOLTS C1080 Fig. 4. Forward Current vs. Forward Voltage V70 T 160 MANIBBOA od * MAN3960A 140 --- f 140 N. e = RELATIVE BRIGHTNESS. $0 PL a fay $0 7 AMBIENT TEMPERATURE Cilaa Fig. 5. Relative Luminous Intensity vs. Temperature 400 . 2 MAN78A . | : | Fs f. , 1 : ] I I o 6 10 16 20 Ve - VOLTS. Care Fig. 6. Forward Current vs. Forward VoltageOPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS 100 170 T T ] qT \~ MAN7BA MAN 28804 q 160 80 , 140 f , 70 2 130 SN L. = 120 # Boi 50 -} 5 * 0 2 90 a L s eo 2 / 7 10 L 60 7 * sO + oO 2 sO 70 o i) 70 30 40 AMBIENT TEMPER&TURE 'C C1286 Ve WOLTS cae Fig. 7. Relative Luminous intensity Fig. 8. Forward Current vs. vs. Temperature Forward Voltage = TI (oo < + + t MAN 38804 + * t Do 4 5 : z a | g Z 3 3 ; NN Z > 3 5 3 2 r Fw = 2ob hs = ui ' 2 ttf mail n 10 100 1000. 10,000 -0 3 0 an co) AMBIENT TEMPERATURE -"C CAD) Fig. 9. Relative Luminous intensity vs. Temperature PULSE DURATION .us c1699 Fig. 10. Maximum Peak Current vs. Pulse Duration 40 Tt T T MAN34804, Wy i i o Veiavc) 7 20 MA wr, 3a wamatL | Se 39f- SmaAtq ze i N We -25 mA N os Nin / N we Pele i os wad w 20 ~ tt t we pote A ze a Ty mA <3 ho TREN PsN as wee kp Lh as 10 beat x cy } ry] ' SS = bdo Bh Wl LR it TN ggt 1-1 u | 20 50 Ww 2 $0 oC % DUTY CYCLE c1701 Fig. 11. Relative Efficiency vs. Duty Cycle 1000 $00 hy oy tp N {feoueney = 200 pos < 200 > 190 IN * B80 Bs 2 80 ae x NY N 20 at) V 2093 5 8 10 20 30 SO 80100 DuTY CYCLE & cr221 Fig. 12. Max Peak Current vs. Duty Cycle& 0.300-INCH OPTOELECTRONICS SEVEN SEGMENT DISPLAYS FREQUENCY = 200 ops RELATIVE INTENSITY. - mA PEAK If 10 20 40 oc OUTY CYCLE % 1 2 3 5 8 10 20 30 $0 80100 tp PER SEG 10 mA AVERAGE 1222 OvtyCycLe % C1223 Fig. 13. Luminous intensity vs. Fig. 14. Max Peak Current vs. Duty Cycle Duty Cycle ? tMANBOOA SERI 500 > FREQUENCY = 200 pps E = < 200 2 1.5 = 7500 = = 80 2 #60 20 1 10 20 40. DC 10 GUTY CYC. ~% 2 y > 8 Ww 20 JO SU BO 100 Ip PER SIG 10mA AVERAGE = C1232 DurveYcLe 012286 Fig. 15. Luminous intensity vs. Fig. 16. Max Peak Current vs. Duty Cycle Duty Cycle MANSBB048, 160 100 RELATIVE INTENSITY 50 RELATIVE INTENSITY, % oO 0 20 40 oc s 10 18 20 2% 30 OUTY CYCLE te FORWARD CURRENTmA Ig PER SEG IOMA AVERAGE C1226 1825 Fig. 17. Luminous Intensity vs. Fig. 18. Relative Luminous intensity vs. Duty Cycle Forward Current