0.560-INCH OPTOELECTRONICS SEVEN SEGMENT DISPLAYS HIGH EFFICIENCY RED MAN6900 SERIES = High Efficiency Red nitrogen-doped GaAsP on GaP Large, easy to read, digits Common anode or common cathode models Fast switching excellent for multiplexing Low power consumption Bold solid segments that are highly legible Solid state reliability long operation life Rugged plastic construction Directly compatible with integrated circuits High brightness with high contrast Categorized for Luminous Intensity (See Note 6) Wide angle viewing...150 Low forward voltage Two-digit package simplifies alignment and assembly The MAN6900 Series is a family of large digits which includes double and single digits. The series features the sculptured font which minimizes gappiness at the segment intersections. Available models include two- digit, one and one-half digits with polarity sign, and single digits. All models have right hand decimal points and are available in common anode or common cathode configuration. This device has a Red face and Red segments. For industrial and consumer applications such as: Digital readout displays # Instrument panels @ Point of sale equipment Digital clocks m TV and radios PACKAGE PIN OUT NUMBER COLOR DESCRIPTION DRAWING SPECIFICATION MAN6910_ High Eff. Red 2 Digit; Common Anode; Rt. Hand Decimal A A MAN6930_ High Eff. Red 1% Digit; Common Anode; Overflow +1.8; Rt. Hand Decimal B B MAN6940_- High Eff. Red 2 Digit; Common Cathode; Rt. Hand Decimal A Cc MAN6950_ High Eff.Red 1% Digit; Common Cathode; Overflow +1.8; Rt. Hand Decimal B D MAN6960_ High Eff. Red Single Digit; Common Anode; Rt. Hand Decimal Cc E MAN6980__High Eff. Red Single Digit; Common Cathode; Rt. Hand Decimal Cc F |_ RECOMMENDED OPTICAL FILTERS. For optimum ON and OFF contrast, one of the following filters or equivalents should be used over the display: a a FS DEVICE TYPE FILTER MAN6900 Series Panelgraphic Scarlet 65 Homalite 100-1670ee 0.560-INCH OPTOELECTRONICS SEVEN SEGMENT DISPLAYS UNITS TEST CONDITIONS Luminous Intensity, digit average ped l=10 mA (See Note 1) Peak emission wavelength nm Spectral line half width Forward voltage Segment . -=20 mA Decimal point . I,=20 mA Dynamic resistance Segment |-=20 mA Decimal point |-=20 mA Capacitance Segment v=0 Decimal point V=0 Reverse current Segment Va=5.0V Decimal point Va=5.0 V MAN6910 MAN6930 MAN6960 MAN6940 MAN6950 MAN6980 Power dissipation at 25C ambient..........: cece ee eee eee 1200 mw 1050 mW 600 mW Derate linearly from 50C oo eens 17.1 mWw/ec 15.0 mW/C 8.6 mW/C Storage and operating temperature ........... 0... cee eee 40C to +85C -40C to +85C 40C ta +85C Continuous forward current se) =| 480 mA 420 mA 240 mA Per segment ........ 0.00 eee ene eee 30 mA 30 mA 30 mA Decimal point 0.0... cee eee ee 30 mA 30 mA 30 mA Reverse voltage Per segment .. 06... eee nee 6.0V 6.0V 6.0V Decimal Point 0... eee rete eens 6.0V 6.0V 6.0V Soldering time at 260C (See Notes 3 and 4) ............... 5 sec. 5 sec. 5 sec. Thermal resistance junction to free air Dy... ene eens 160C/W Wavelength temperature coefficient (case temperature)... 6... ce ened e eee renee 1.0A/C Forward voltage temperature coefficient .... 6... eee e nent ners -2.0 mv/C 1. 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. . The curve in Figure 3 is normalized to the brightness at 25C to indicate the relative efficiency over the operating temperature range. , 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, soproponal 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. AAW nNOPTOELECTRONICS A 985" ag(25.02 mm}__y 4.010" 500" 12.70 mea) a or A 4 i SJ rn | a is 750" 560 s } (18.05 mum) iho (14.22 mm) ; 4 {i 1.010" | {| ! eff, te ele, qie { a JO Jo Ui Voor UH ovr I NX 066" DIA miait ea = Le ean (1.88 mn) ier INTENSITY W3mm) ATE cone CAT. 160 PART ! 06 wm) IDENTIFIGATION m|PAATNO. = XYY Z 016" PIN _.| oon t (NOTE SQUARE 100" he .- BASE ON {2.64 mm} 02971127 mm) 600" 7538 emt LEAD) (0.51 mend TS 24 wa) OP ooy" 7b04" 7.015" ooo ~000 11858 PIN #1femw 9 0 8 oo oo om PIN #9 BOTTOM VIEW exveaaeancaoa LPIN #10 8 985" a (25.02 mm)__ 10" [+ 800" \ 112.70 mm) } I A | re PT R 780" lf wa ree * s 119.05 mm o 22 men) D w | | i} ll , Lo fe vo Ucolle UO op Ub? Your j_ 066" DIA 00.88 avn) LIGH INTENSITY DATE CODE CAT 160" PART \ F ats (4.06 mm) IDENTIFICATION PARTNO, XYZ 18.00 mm) +018) osc PIN #1 | i wee fag 11-27 mm) le ono" 28h em (051 em) 600" w| {0.25 mm! 008" (15.24 mm) +007" =.000' 2018 ~-000 o11a6a 0.560-INCH SEVEN SEGMENT DISPLAYS A p- = ti eli ic U bo} bP N 066" DIA, LIGHT INTENSITY car 4 a PART+| PART 31 -160 IDENTIFICATION | (8.00 mm} (4.06 mm) 2.010" 015" Lm 4 : .050"" PINE Le 0.27 mi pin a 160" TYP 020" +004" (2.54 mm) eI 60.54 cnr 000" |} 10 ve {0.25 mm} im 600" al m +.007 (18.24 mm} p00" 1.018" cr1868 PIN #1 PIN #5 foo ao BOTTOM VIEW soos PIN #6OPTOELECTRONICS 0.560-INCH SEVEN SEGMENT DISPLAYS ELECTRICAL CONNECTIONS PIN A B c D E F NO. MAN6910 MAN6930 MAN6940 MAN6950 MAN6960 MAN6980 1 Cathode E 1 Cathode C 1 Anode E 1 Anode C 1 Cathode E Anode E 2 Cathode D 1 Cathode D1 Ancde D 1 Anode D 1 Cathode D Anode D 3 Cathode C 1 Cathode B 1 Anode C 1 Anode B 1 Com. Anode Com. Cathode 4 Cathode D.P. 1 Cathode D.P. 1 Anode D.P. 1 Anode D.P. 1 Cathode C Anode C 5 Cathode E 2 Cathode E 2 Anode E 2 Anode E 2 Cathode D.P. Anode D.P. 6 Cathode D 2 Cathode D 2 Anode D 2 Anode D 2 Cathode B Anode B 7 Cathode G 2 Cathode G 2 Anode G 2 Anode G2 Cathode A Anode A 8 Cathode C 2 Cathode C 2 Anode G2 Anode C 2 Com. Anode Com. Cathode 9 Cathode D.P. 2 Cathode D.P. 2 Anode D.P. 2 Anode D.P. 2 Cathode F Anode F 10 Cathode B 2 Gathode B 2 Anode B 2 Anode B2 Cathode G Anode G 11 Cathode A2 Cathode A 2 Anode A2 Anode A2 12 Cathode F 2 Cathode F 2 Anode F 2 Anode F 2 13 Anode Digit 2 Anode Digit 2 Cathode Digit 2 Cathode Digit 2 14 Anode Digit 1 Anode Digit 1 Cathode Digit 1 Cathode Digit 1 16 Cathode B 1 Cathode A 1 Anode B 1 Anode A 1 16 Cathode A 1 No Connection Anode A 1 No Connection 17 Cathode G 1 No Connection Anode G 1 No Connection 18 Cathode F 1 No Connection Anoce F 1 No Connection SERIES Up) ma o 4 8 12 16 20 246 28 32 34 40 FORWARD VOLTAGE (Ve) VOLTS C1080 Fig. 1. Forward Current vs. Forward Voltage ICAL CHARACTERISTIC RELATIVE BRIGHTNESS % 170 160 150 130 120 110 90 80 70 60 50 Fig. 2, Luminous Intensity vs. MAN4900 SERIES -25 oO 26 50 70 AMBIENT TEMPERATURE "CG C428 Forward Current RELATIVE INTENSITY - % 50 -25 5 26 50 70 AMBIENT TEMPERATURE -C 9 C1246 Fig. 3. Luminous Intensity vs. Temperature (See Note 2) = 200 pps MV53173 PEAK If = mA 1 3.5 10 20 50 100 DUTY CYCLE - % C1193 Fig. 4 Max Peak Current vs. Duty Cycle RELATIVE INTENSITY 20 40 DUTY CYCLE - % |. PER SFG 1f mA AVERAGE oC Cizee Fig. 5. Luminous Intensity vs. Duty Cycle 40 tT > 5 NORMALIZED AT Ie = 10 mA Z 30 z no 3 A zs 20 t Ss : 5 y : a S10 + eb 1 < t u e 0 5 10 15 2 25 30 OC FORWARD CURRENT Ir mA C1702 Fig. 6. Relative Luminous intensity vs. Forward Current(eys 0.560-INCH OPTOELECTRONICS SEVEN SEGMENT DISPLAYS 44 a3 FIRST | DIGIT SECOND] O1GIT ) SECOND | DIGIT FIRST | DIGIT SECOND] OIGIT I yYvvvvvyvvvyVyvYY WEY ery VVYVY| ARR EATAGAAREEAS jo Ic je ja |G je |orje fo c je lf __jor| cla |e loole to Io le is ta fr E [> jc ja Ja |G |e |p F v j2 73 fs fie fir fie fs fs fe pop pays 20h) fs ]3 op |e]? fe fie pipe ye 1 72 13 5 fie fy? he la s [6 |? le [id fit fr i i MAN6Q10 C1195 MAN6830, C1196 MANG6940 C1197 4 13 3 a SECOND] DIGIT t EAEEEALALEE eyryyey kiki ii A BAF _ jo E |p [c |p la jr [a pe elo F 15, WO iy ji? [9 cia ja lr [2 ae [7 fe fo Ts rye [4 6 |? a fo [5 C1198 MANB960 G1za8 g ~Ie MAN6980, C1239