1524 -S595 Tt 629. QUALITY 0.300-INCH TECHNOLOGIES . SEVEN SEGMENT DISPLAYS HIGH EFFICIENCY GREEN MAN3400A RED MAN70A ORANGE MAN3600A YELLOW MAN3800A FEATURES lan | = Common anode or common cathode models = Red, Yellow, Green and Orange = Fast switching excellent for multiplexing m= Low power consumption Bold 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 14 pin dual-in-line package configuration = Wide angie viewing...150 DESCRIPTION | The MAN3400A, MAN3600A, MAN70A and MAN3800A Series provides a choice of color of LED displays. Standard units are available in Red, Green, Orange and E APPLICATIONS __ Yellow. They can be mounted in arrays with 0.400-inch 110.16 mm) center-to-center spacing. Yellow and High = Digital readout displays =fficiency Green displays are constructed with Grey face Instrument panels and neutral segment color. Red displays have Black = Point of sale equipment = Calculators aces and Red segment color. Others have face and segment color corresponding to the emitted light. = Digital clocks x | MODEL NUMBERS 4 | PART NUMBER COLOR DESCRIPTION s ( MAN3410A High Efficiency Green Common Anode; Right Hand Decimal = ; ; MAN3420A High Efficiency Green Common Anode; Left Hand Decimal of MAN3440A High Efficiency Green Common Cathode; Right Hand Decimal ut MAN3610A Orange Common Anode; Right Hand Decimal ; MAN3620A Orange Common Anode; Left Hand Decimal 4 ! MAN3630A Orange Common Anode; Overflow +1 4 ; MAN3640A - Orange Common Cathode; Right Hand Decimal oa : MAN71A Red Common Anode; Right Hand Decimal yt ! MAN72A Red Common Anode; Left Hand Decimal 4 MAN73A Red Cammon Anode; Overflow +1 ' _ MAN74A Red Common Cathode; Right Hand Decimal ; MAN3810A Yellow Common Anode; Right Hand Decimal | MAN3820A Yellow Common Anode; Left Hand Decimal _MAN3B40A Yellow Common Cathode; Right Hand Decimal 3-53MAN3400A MAN70A MAN3GOOA MANSSO0A QUALITY TECHNOLOGIES 0.300-IN SEVEN SEGMENT DISPLA ELECTRO-OPTICAL CHARACTERISTICS (25C Free Air Temperature Uniess Otherwise. Specified) MIN. TYP. MAX. UNITS TEST CONDITIONS MAN3410A, 3420A, 3440A Luminous Intensity, digit average 750 3200 ucd Ir=10 mA (See Notes 1 and 3) 900 4000 pcd lp =60 mA peak, 1:6 [ Peak emission wavelength 562 nm Spectral line half width 30 nm Forward voltage Segment 2.2 3.0 Vv le=20 mA Decimal point 2.2 3.0 Vv lp=20 mA Dynamic resistance Segment 12 2 lz=20 mA Decimal point 12 2 lf=20 mA Capacitance Segment 40 pF V=0 Decimal point 40 pF V=0 Reverse current Segment 100 uA Va=5.0 V Decimal point 100 uA Va=5.0V MAN3610A, 3620A, 3630A, 3640A Luminous Intensity, digit average 510 1800 ucd F=10 mA (See Note 1 and 3) Peak emission wavelength 630 nm Spectral tine half width 40 nm Forward voltage Segment 2.5 Vv lr=20 mA Decimai point 2.5 Vv Ip=20 mA Dynamic resistance Segment 26 2 lp=20 mA Decimal point be: 26 a lp=20 mA Capacitance Segment 35 pF V=0 Decimal point 35 pF V=0 Reverse current Segment 100 BA Va=5.0 V Decimal point 100 pA Va=5.0 V 3-54ae O_O, QUALITY 0.300-INCH TECHNOLOGIES SEVEN SEGMENT DISPLAYS | ELECTRO-OPTICAL CHARACTERISTICS (25C Free Air Temperature Unless Otherwise Specified} (Cont'd): MIN. TYP. MAX. UNITS TEST CONDITIONS /MAN71A, 72A, 73A, 74A Luminous Intensity, digit average 125 350 ued le=10 mA (See Note 1 and 3) Peak emission wavelength 660 am Spectral line half width 20 nm Forward voltage Segment 2.0 Vv Ie=20 mA Decimal point 2.0 Vv le =20 mA Dynamic resistance Segment 2 n lon =100 mA Decimal point 2 2 lox = 100 mA Capacitance ! Segment 35 80 pF V=0 Decimal point 35 80 pF V=0 Reverse current Segment 100 BA Va=5.0 V Decimal point 100 BA Va=5.0V MAN3810A, 3820A, 3840A Luminous Intensity, digit average 450 1700 ucd Ir=10 mA (See Note 1 and 3) Peak emission wavelength 585 nm Spectral line half width 40 nm Forward voltage Segment 3.0 Vv le=20 mA Decimal point 3.0 Vv Ir=20 mA Dynamic resistance Segment 26 2 Ip=20 mA Decimal point 26 2 le=20 mA Capacitance Re Segment 35 pF V=0 Decimal point 35 pF V=0 Reverse current Segment 100 BA Va=5.0 V Decimal point 100 LA Vea=5.0 V 3-55QUALITY 0.300-IN TECHNOLOGIES SEVEN SEGMENT DISPLs tees RECOMMENDED OPTICAL FILTERS For optimum. ON and OFF contrast, one of the following filters. or equivalents. should be used over the display MANS&UUA MAN/UA MANSOUUA MANSOUUA DEVICE TYPE FILTER DEVICE TYPE FILTER aoa MAN3610A MAN71A MAN3620A Panelgraphic Scarlet 65 MAN72A Panelgraphic Red 60 MAN3630A Homalite 100-1670 MAN73A Homailite 100-1605 MAN3640A MAN74A MAN3410A Panelgraphic Green 48 MAN3810A Panelgraphic Yellow 25 or Amber 2 MAN3420A Homalite 100-1440 Green MAN3820A Homalite 100-1720 or 100-1726 MAN3440A MAN3840A Panelgraphic Grey 10 Homalite 100-1266 Grey _ ABSOLUTE MAXIMUM RATINGS | Be _ HIGH EFF. GREEN RED MAN3410A MAN71A MAN3420A MAN72A MAN3440A MAN74A MAN73A Power dissipation at 25C ambient...................... 600 mw 480 mW 300 mw Derate linearly from 50C.............................. 12 mW/C 6.9 mW/C 4.29 mW/"C Storage and operating temperature..................... 40C to +85C 40C to +85C 40C to +85 Continuous forward current Total... 02 ccc c cece ceeeeeeeee 240 mA 240 mA 150 mA Per segment .... 2.0... eee eee e eee s eee eee 30 mA 30 mA 30 mA Decimal point ..............0.0 0. ccc cece eee. 30 mA 30 mA 30 mA Reverse voltage Per segment 2.0.0.0... cece ccc eee ees eceece eee. 6.0 V 6.0 V 6.0 V Decimal point ........ 0... e eee eee ell, 6.0 V 6.0V 6.0 V Soldering time at 260C (See Notes 4 and 5) ............ 5 sec. 5 sec. 5 sec, YELLOW ORANGE MAN3810A MAN3610A MAN3820A MAN3620A MAN3840A MAN3640A MAN3630A Power dissipation at 25C ambient...................... 600 mw 600 mw 375 mW Derate linearly from 50C ......................0..0000, 10.3 mW/C 8.6 mW/C 5.36 mWw/C Storage and operating temperature..................... 40C to +85C 40C to +85C 40C to +85 Continuous forward current Total... cece ccc cece cece ee. 200 mA 240 mA 150 mA Per segment ................... Mpc eeeeee eee 25 mA 30 mA 30 mA Decimal point ................0070.0............... 25 mA 30 mA 30 mA Reverse voltage Per segment 2.0.0... cece cece cece cece eee. 6.0 V 6.0 V 6.0 V Decimal point ........... 0. eee eee 6.0 V 6.0 V 6.0 V Saldering time at 260C (See Notes 4 and ) 5 sec. 5 sec. 5 sec. ~ FYPICAL THERMAL CHARACTERISTICS ~- GREEN/YELLOW Thermal resistance junction to free air JA eee ene cede eee e ee eee ett enbenenbenbence 160C. Wavelength temperature coefficient (case temperature)... 1.0A. Forward voltage temperature coefficient .....02...0.00000 tips 1.5 mV. RED/ORANGE Thermal resistance junction to free air } YA nt eect tne ete e eee ten tate eetbbeeee 160C. Wavelength temperature coefficient (case temperature) ...2...00 2. pts srs s ss 1.0A Forward voltage temperature coefficient .... 00.0... tits 2.0 mV NOTES 1. The digit average Luminous intensity is obtained by summing the Luminous Intensity of each segment and dividing by the total numbe. segments as measured with a Photo Research Corp. SPECTRA Microcandela Meter (Model IV-D). Intensity will not vary more tl +33.3% between all 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 operai temperature range. ; . The decimal point is designed to have the same surface brightness as the segments, therefore, the Luminous Jntensity of the decimal poir .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 temprature is 140C. . For flux removal, Freon TF. Freon TE. fsoproponal or water may be used up to their bailing points. AaR GG fh . All displays are categorized tor Luminous intensity. The intensity category 1s marked on each Dart as a suffix letter to the part number 3-56QUALITY 0.300-INCH TECHNOLOGIES SEVEN SEGMENT DISPLAYS 7 Loe tbh # cet onatip o ' PACKAGE DIMENSIONS | i : ___ PART Na COOS o 160" Vax DATE COOE 5 om (4.06 mei Z* LIGHT INTENSITY 010" 1015 CAT. Na. iis : 7 PA ~ 1337 L 200" LE oe a! | ||esirn 00" 1338 hi at oT 150" tae !4 28 rom, 7 armer 4 tay ie 7 een tet PIN al om | N 1 zy \, i a HG " * a.a7e a p i ear, / a q nn | ~ a . i rT Hees fA dt ole LL ead aor Us 33rd La Ol 2m 1875 mm a oO wt 14 met | a [> f +010" 2 *.00" 0 le | oro g 0 ree Ld - 6 3 3] | lO ao (98 78 wy oo Tee 2 wm Tys Of | | s oP | Zi Oils i moO Olje Tate oe ; , 1 ; Ca208 6" i cf . 0m * IL ne ene [is 20 me. cana | ae} (I i ELECTRICAL CONNECTIONS Pin A B c dD No. MAN3410A, 3610A, 71A, 3810A | MAN3420A, 72A, 3620A, 3820A MAN3630A, 73A MAN3440A, 3640A, 74A, 3840A 1 Cathode A Cathode A Anode C, D Anode F 2 Cathode F Cathode F No Pin Anode G 3 Common Anode Common Anode Anode C, D No Pin 4 No Pin No Pin No Pin Common Cathode 5 No Pin No Pin No Pin No Pin 6 No Connection Cathode D.P. No Pin Anode E 7 Cathode E Cathode E Cathode D Anode D 8 Cathode D Cathode D Cathode C Anode C 9 Cathode D.P. No Connection No Connection Anode D-P. 10 Cathode C Cathode C Cathode 8 No Pin 11 Cathode G Cathode G Cathode A No Pin 12 No Pin No Pin No Pin Common Cathode 13 Cathode B Cathode B No Pin Anode B 14 Common Anode Common Anode Anode A, 8 Anode A | ELECTRICAL SCHEMATIC: t ao} 3 A 5 NY W 8 So 0 ? a eee 3-57CPI eer wr ar owe wre wwe we QUALITY TECHNOLOGIES 0.300-INC SEVEN SEGMENT DISPLay TYPICAL CHARACTERISTIC CURVES . 7 TT TT Td <= 9 ! cE NORMALIZED AT Ip = 10 mA = wo \ fi g I | 4 & [ / p 30 TT t | 70 7 F MAN3400A SERIES Y/Y | t z 50 7 3 YY o 4 } w 9 ! 2 c 30 < 1.0 < = 20 DOTTED LINE g 5 ! INDICATES = 10 PULSED OPERATION 0 SEE FIGS. 3, 5: 0 5 10 18 20 3 x 1.0 20 3.0 40 OC FORWARO CURRENT - I. (mA) FORWARD VOLTAGE Ve iVOLTS: 1697 C1702 Fig. 1. Forward Current Fig. 2. Relative Luminous Intensity vs. Forward Voltage vs. OC Forward Current 130 = 120 MANI6O0A SERICS = wu Zz 100 WwW = 90 Ee 5 ad a g ne +25 0 25 so 75 100 TEMPERATURE - T, C 1700 Fig. 3. Relative Luminous Intensity vs. Temperature Q 4 @ 12 16 20 24 28 32 3640 FORWAAD VOLTAGE iV) vouTs C1080 Fig. 4. Forward Current vs. Forward Voltage 3-58 MAN4900 SERIES RELATIVE BRIGHTNESS - % 2s oO 3 so 70 AMBIENT TEMPERATURE -"C C428 Fig. 5. Relative Luminous Intensity vs. Temperature y= mA MAN IQA SEAIES Q s 1a 1s 20 Ve - VOLTS Cae Fig. 6. Forward Current vs. Forward VoltageQUALITY 0.300-INCH TECHNOLOGIES SEVEN SEGMENT DISPLAYS nn ICAL CHARACTERISTIC CURVES (Contd) 100 170 1 0 MANIOA SERIES MAMNJSO00A SERIES 150 ao 14Q 70 2 1.0 5 120 1 2 110 so & 100 = 0 co 70 7 60 Ww 3s -% 2s a s Da nm a oO 270 30 46 AMBIENT TEMPERATURE -C C1244 Ve - VOLTS car Fig. 7. Relative Luminous Intensity Fig. 8. Forward Current vs. vs. Temperature Forward Voltage 000 120 T T "300 MANIZBOOA SERIES t 600 = 110 z Zz : ps = 200 = 180 2 ; sg z PS 6 = > z 4 : = > = = x 7 3 * = 10 a 10 100 1000 10,000 3 24 o as Eo] 7 PULSE OURATION us AMBIENT TEMPERATUAE "C Cat C1699 Fig. 9. Relative Luminous intensity Fig. 10. Maximum Peak Current vs. Temperature vs. Pulse Duration 40 T . 1000 PT | 200 5 \ = 20ma] . $00 38 a0 rave TO ma |. AL FREQUENCY 200 pps ae asmay | \ Ge i ower NJ < 200 ts te : i : xe w 20 it t 2 + rita > 100 >3 | ad Lf TNL $80 <3 ane ieee MW x 40 as 10 money ty as iiafli SSN ~ i yaqe NAY t tii N 70 oo Ll bo i rh 20 $0 1 2 99 oC 0 % OUTY CYCLE 7 1] 5 8 10 20 3 SO 80100 C1701 OurTycrc.re SW c123t Fig. 11. Relative Efficiency Fig. 12. Max Peak Current vs. vs. Duty Cycle Duty Cycle VOOBENYW VOOSENYM VOLNYW. VOOrE 3-59sR eeeN we wwe free wow wre SUR Un Ww OW Ww wr ae ie ee | QUALITY TECHNOLOGIES 0.300-INi SEVEN SEGMENT DISPLA TYPICAL CHARACTERISTIC CURVES (Cont'd) 2 MAN OOS SERIES RELATIVE INTENSITY 40 20 40 oc Outycyc. 3 te PEASEC lO ma aveRaAGe 1222 Fig. 13. Luminous Intensity vs. MAN47OO0A SERIES REL ATIVE INTENSITY a aT) 20 40 oc OUTY CYCLE % 4, PER SEG 10 ma AVERAGE C1232 Fig. 14. Luminous Intensity vs. Duty Cycle Duty Cycle 1000 MANIOA SERIES 800 $00 FREQUENCY 200 ops < 200 e = 100 < 90 r Ss 20 10 ' 203 5 8 0 20 30 50 80100 OuTycycc +. 1223 Fig. 15. Max Peak Current vs. Duty Cycle MAN36C04 SEALES ERB FREQUENCY = 200 ops | ma w & 38 PEAKE, 2093 #5 8 10 20 30 SW 80100 Ouly CYCcE C1226 Fig. 16. Max Peak Current vs. Duty Cycle 3-60 MAN38004 SERIES RELATIVE INTENSIFY 10 20 40 oc OuTyCvC.e + ' PEASEG 10 mA AVERAGE C1296 Fig. 17. Luminous Intensity vs. Duty Cycle 150 # x iz 3 100 Tv) ~ z as 2 = 50 ag Q 5 10 15 20 25 40 le -FORWARD CURRENTmaA C1825 Fig. 18. Relative Luminous Intensity vs. Forward Current