& aE | 0.300-INCH era ibrriry SEVEN SEGMENT DISPLAYS HIGH EFFICIENCY GREEN MAN3400A RED MAN70A ORANGE MAN3600A YELLOW MAN3800A Common anode or common cathode models Red, Yellow, Green and Orange Fast switching excellent for multiplexing Low power consumption Bald 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 angle viewing. ..150 The MAN3400A, MAN3600A, MAN70A and MAN3800A Series provides a choice of color of LED displays. Standard units are available in Red, Green, Orange and Yellow. They can be mounted in arrays with 0.400-inch (10.16 mm) center-to-center spacing. Yellow and High @ Digital readout displays Efficiency Green displays are constructed with Grey face @ Instrument panels and neutral segment color. Red displays have Black w Point of sale equipment faces and Red segment color. Others have face and @ Calculators segment color corresponding to the emitted light. = Digital clocks PART NUMBER COLOR DESCRIPTION MAN3410A High Efficiency Green Common Anode; Right Hand Decimal MAN3420A High Efficiency Green Common Anode; Left Hand Decimal MAN3440A High Efficiency Green Common Cathode; Right Hand Decimal MAN3610A Orange Common Anode; Right Hand Decimal MAN3620A Orange Common Anode; Left Hand Decimal MAN3630A Orange Common Anode; Overflow +1 MAN3640A Orange Common Cathode; Right Hand Decimal MAN71A Red Common Anode; Right Hand Decimal MAN72A Red Common Anode; Left Hand Decimal MAN73A Red Common Anode; Overflow +1 MAN74A Red Common Cathode; Right Hand Decimal MAN3810A Yellow Common Anode; Right Hand Decimal MAN3820A Yellow Common Anode; Left Hand Decimal MAN3840A Yellow Common Cathode; Right Hand DecimalOPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS TEST CONDITIONS MAN3410A, 3420A, 34404 Luminous Intensity, digit average 750 3200 ped |-=10 mA (See Notes 1 and 3) 900 4000 ued |-=60 mA peak, 1:6 DF Peak emission wavelength 562 nm Spectral line half width 30 nm Forward voltage Segment 2.2 3.0 Vv -=20 MA Decimal point 2.2 3.0 Vv |-=20 mA Dynamic resistance Segment 12 0 .=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=5.0 V Decimal point 100 BA Va=5.0V MAN3610A, 3620A, 3630A, 3640A Luminous Intensity, digit average 510 1800 ped F=10mMA (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 Qa =20 mA Decimal point 26 a =20 mA Capacitance Segment 35 pF V=0 Decimal point 35 pF V=0 Reverse current Segment 100 BA Va=5.0V Decimal point 100 pA Va=5.0 VDPTOELECTAONICS 0.300-INCH SEVEN SEGMENT DISPLAYS TEST CONDITIONS MAX, UNITS MAN71A, 72A, 73A, 74A Luminous Intensity, digit average 125 350 pcd |-=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 v -=20 mA Dynamic resistance Segment 2 2 lox= 100 MA Decimal point 2 o l= 100 MA Capacitance Segment 35 80 pF V=0 Decimal point 35 80 pF V=0 Reverse current Segment 100 pA Va=5.0 V Decimal point 100 BA r=5.0V MAN3810A, 3820A, 3840A Luminous Intensity, digit average 450 1700 ped =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 a |;=20 mA Decimal point 26 a |;-=20 mA Capacitance Segment 35 pF Vv=0 Decimal point 35 pF V=0 Reverse current Segment 100 pA V,=5.0V Decimal point 100 pA Va=5.0 V@ 0.300-INCH OPTOELECTRONICS SEVEN SEGMENT DISPLAYS FILTER DEVICE TYPE FILTER MAN3610A MAN71A MAN3620A Panelgraphic Scarlet 65 MAN72A Panelgraphic Red 60 MAN3630A Homalite 100-1670 MAN73A Homalite 100-1605 MAN3640A MAN74A MAN3410A Panelgraphic Green 48 MAN3810A Panelgraphic Yellow 25 or Amber 23 MAN3420A Homalite 100-1440 Green MAN3820A Homalite 100-1720 or 100-1726 MAN3440A MAN3840A Panelgraphic Grey 10 Homalite 100-1266 Grey HIGH EFF. GREEN RED MAN3410A MAN7TIA MAN3420A MAN72A MAN3440A MAN74A MAN73A Power dissipation at 25C ambient ........0......ccceeaee 600 mW 480 mW 300 mW Derate linearly from 50C. .... 22.2.0 12 mw/Pc 6.9 mW? ~ 4,29 mW/PC Storage and operating temperature ...................... 40C to +85C -40C to +85C 40C to +85C Continuous forward current Total 0. e tee tee nen enenns 240 mA 240 mA 150 mA Per segment. ... 0.0.0... cece ccc cece cere eeeaeenes 30 mA 30 mA 30 mA Decimal point......... 00... c cece eee eens 30 mA 30 mA 30 mA Reverse voltage Per S@QMent. 22... ccc cece eee tec ee cee eennes 6.0V 6.0V 6.0V Decimal point... 2.0. ee cece eee teens 6.0V 6.0V 6.0V Soldering time at 260C (See Notes 4 and 5)............... 5 sec. 5 sec. 5 sec. YELLOW ORANGE MAN3810A MAN3610A MAN3820A MAN3620A MAN3B40A MAN3640A MAN3630A Power dissipation at 25C ambient ...................0005 600 mW 600 mW 375 mW Derate linearly from 50C. 2... ee 10.3 mw/c 8.6 mW/C 5.36 mW/??C Storage and operating temperature ...................... 40C to +85C 40C to +85C 40C to +85C Continuous forward current Total 0. ccc eee e teen cette ene 200 mA 240 mA 150 mA Per segment. ... 0.0... ccc cece enter eens 25mA 30 mA 30 mA Decimal point... 0.0... cece eee eee nes 25 mA 30 mA 30 mA Reverse voltage Persegment....... 0... 0c ccc eee teen eee cee es 6.0V 6.0V 6.0V Decimal point... 0.0... c cece eee eee eens 6.0V 6.0V 6.0 V Soldering time at 260C (See Notes 4 and 5)............... 5 sec. 5 sec. 5 sec. TYPICAL T! GREEN/YELLOW Thermal resistance junction to free air By... cece cece cece bere e teed cece tebe bbb bebe b bbb bbb bbb bcc 160C/W Wavelength temperature coefficient (case temperature). ........00 0.000 cece eee tect cee, 1.0A/C Forward voltage temperature coefficient 0000 ce cece eee ee ete e rte ttt ett t errr errr 1.5 mv/C RED/ORANGE Thermal resistance junction to free air By. cece eee c ene e eevee setae et tenbeetetebecsrbbbper ees 160C /W Wavelength temperature coefficient (case temperature)........0000 0. cc cece ccc vec eet t ete e teen ne. 1.0A/C Forward voltage temperature coefficient -2,0 mv/C . 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 all segments within a digit. 2. 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. 3. 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! paint is .3 times the area of the average segment. 4, Leads of the device immersed to 1/16 inch from the body. Maximum device surface temprature is 140C. 5, For flux removal, Freon TF, Freon TE, lsoproponal or water may be used up to their boiling points. 6. All displays are categorized for Luminous intensity. The intensity category is marked on each part as a suffix letter to the part number.OPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS Samm al oR . | | nfo _| 9.40 mm) t 738" 418.75 tne). Pred eI (7.82 wm) PART No. CODE MANXXXX = PART No, YXX = DATE CODE 2 = LIGHT INTENSITY CAT. No. we 4 BOF itn LL i no, 2oan 17.47 ann Too 61338 te fat 7s orex sat! 7 yo | it oBG inal varb" A | a (9.40 mm: \ -! LL a 738 00" eeemm Rami 010 | | 95 ws Die 1044 (2 Seong ve i a a : ELECTRICAL CONNECTIONS Pin A B c D 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 3 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 B 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 Cammon Anode Anode A, B Anode A0.300-INCH nPrtriectaouics SEVEN SEGMENT DISPLAYS 100 T 7 40 T T < 9 z NORMALIZED AT |; 10 mA E / 5 a % 7 i 30 i | T | 70 | } z MAN3400A SERIES no 5 d & 6 / 3 20 L & 60 t = 5 / 3 GS 40 7 a a i 2 x 30 7 1.0 = 20 {DOTTED LINE GF 5 INDICATES a Y 10 PULSED OPERATION SEE FIGS. 3,5 0 5 0 18 2 2 430 1.0 20 3.0 40 DC FORWARD CURRENT - kc (mA} FORWARD VOLTAGE Vr (VOLTS) C1687 i702 Fig. 1. Forward Current Fig. 2. Relative Luminous Intensity vs. Forward Voltage vs. DC Forward Current 3 120 AT MAN36004 SERICS > MAN3400A SERIES a 110 f t 100 w = = 9 = s Ww a 80 70 65 -25 0 25 sO 75 100 TEMPERATURE - T, C 0 4 8 12 16 20 24 28 32 36.40 1700 FORWARD VOLTAGE (Vp) VOLTS = C1080 Fig. 3. Relative Luminous intensity Fig. 4. Forward Current vs. vs. Temperature Forward Voltage MAN4SO0 SERIES 160 150 ae MAN 7OA SERIES (140 @ & 130 E 120 2 10 t = 1 & 100 s 2 90 S80 d 70 80 50 80 -25 oO 26 50 70 oO $ 10 16 20 AMB ENT TEMPERATURE -"C C428 Ve - VOLTS C426 Fig. 5. Relative Luminous intensity Fig. 6. Forward Current vs. vs, Temperature Forward VoltageOPTOELECTRONICS 0.300-INCH SEVEN SEGMENT DISPLAYS \ MAN?204 SERIES of} } t a0 ~N RELATIVE BRIGHTNESS - % S -80 25 a 2 50 70 AMBIENT TEMPERATURE -C C1284 Fig. 7. Relative Luminous Intensity vs. Temperature 0 ] MAN3B004 SERIES 2 3 tT! [ 20 L a o 10 20 10 40 Ve VOLTS care Fig. 8. Forward Current vs. Forward Voltage MANQGQOA SERIES. 10 + | ' RELATIVE LUMINOUS INTENSITY. 0 725 9 Bs $0 AMBIENT TEMPEAATURE C C431 Fig. 9. Relative Luminous intensity vs. Temperature mA 8 & Bes y S MAXIMUM PEAK CURRENT | i + iif i hot td | 10 100 1000 40,000, PULSE QURATION us 3 C1696 Fig. 10. Maximum Peak Current vs, Pulse Duration | , Lb) 38 oN za qT . WE i N Qe aN Ls i } wi t + i oN = 3 ho MY ee SY ne Ww 20 50 OC % DUTY CYCLE C1701 Fig. 11. Relative Efficiency vs. Duty Cycle MANIEOOA SEREST | 800 Lit ff wee = 200 pos < 200 = 100. MN 4 a x a0 x 40 =e NY MN 20 oO 1 2 3 5 8 10 20 30 50 80106 OUTY CYCLE C1221 Fig. 12. Max Peak Current vs. Duty Cycle& 0.300-INCH OPTOELECTRONICS SEVEN SEGMENT DISPLAYS 2 MAK 36004 SE MAN4700A SERIES > 3 E g 5 = a z 15 E 15 3 g z zg z aad @ e : 1 a 20 ag oc 10 20 40 ne DUTY CYCLE 4% DUTY GYCLE % 1p PERSEG 1) mA AVERAGE C1222 |) PER SEG 10 mA AVERAGE 1292 Fig. 13. Luminous intensity vs. Fig. 14, Luminous Intensity vs. Duty Cycle Duty Cycle MANOA SE 1000 800 500 MANI600A SEA FREQUENCY = 200 pps FREQUENCY 200 pps ePLaAK yp bs 20 10 203 56 610 20 30 $0 Ba100 i 704 5 8 10 20 30 50 80106 QuTY CYCLE 1223 Dury CYCLE C1225 Fig. 15. Max Peak Current vs. Fig. 16. Max Peak Current vs. Duty Cycle Duty Cycle MANI8006 SERIES. 150 100 RELATIVE INTENSITY 50 RELATIVE INTENSITY, % 0 0 2c 40 oc 5 10 15 20 2 30 DUTY CYCLE +. Ir FORWARD CURRENTmA ty PER SEG IC mm AVERAGE C1226 C1825 Fig. 17. Luminous Intensity vs. Fig. 18. Relative Luminous intensity vs. Duty Cycle Forward Current