Kingbright Te 492 Ty S- PBS / M.S - B17 30mm (1.2 INCH) 5x7 DOT MATRIX DISPLAYS TA12-11 TBA12-14 TBA12-12 TBA12-22 TC12-11 TBC12-11 TBC12-12 - TBC12-22 Features BT 1.2 INCH MATRIX HEIGHT. eDOT SIZE 3mm. eLOW CURRENT OPERATION. @HIGH CONTRAST AND LIGHT OUTPUT. *COMPATIBLE WITH USACII AND EBCDIC CODES. Description The Bright Red source color devices are made with Gallium Phosphide Red Light Emitting Diode. The Green source color devices are made with Gallium Phosphide Green Light Emitting Diode. The High Efficiency Red source color devices are made with Gallium Arsenide Phosphide on Gallium Phasphide Orange eCOLUMN CATHODE AND COLUMN ANODE AVAILABLE. e@EASY MOUNTING ON P.C. BOARDS OR SOCKETS. eCATEGORIZED FOR LUMINOUS INTENSITY, *YELLOW AND GREEN CATEGORIZED FOR COLOR. eMECHANICALLY RUGGED. *STANDARD : GRAY FACE, WHITE DOT. Package Dimensions A: TA12~11,TC12-11 Light Emitting Diode. The Yellow source color devices are made with Gailium Arsenide Phosphide on Gallium Phosphide Yellow Light Emitting Diode. The Super Bright Red source color devices are made with Gallium Aluminum Arsenide Red Light Emitting Diode. & B : TBAI2~11,TBC12-11 Internal Circuit Diagram 8(.315)4(.157)MIN 22.9(.9 93.118) |< PT TAI2~11. i 4 alt * 6 PINIS 3 411 10 6 , | cr co/cs ca cs | ci 2 C3 ca C5 ci cz C3 C4 CS "OOOO OF MOOOO Tata t tA RIC) OOO G 2 OOO 14 R2 7A J QO0O000| JOOO000 ae 3 4OOOOCO MOOOOO 1 Rs a SIQOOOO sOOOOO 2 R? BOOOOO BOOOOO MQOOOOO| lOOOO0O 112-11 PIN 130 3) 4,11 10 6 pb - ; cl 2 c3 C4 CS Pp AB SIDE VIEW fon An | a 14 R2 a es= U | |] | | u 12.584 v 1 RSt wou J ko aL 7 R6>- 2.54(0.10) 3.83(.151) _*1.78(0.07) ae ee TBA12-11 TBC12~11 1 #18 2 313 4 #12 #7 10 :*13 5 tH 2 333 4 12 7 10 13 e1 c2 oc} och OS ci c2 cS ce -s Ted eo ULL 15 rae if onee 16 Ri 2M Rtot+otr R3 GREEN 15 RZ vy 17 ase a x 14 RA 14 -R4 8& RS a RS S R6 3 R6 6 R7 6 R7 7-16Package Dimensions & Internal Circuit Diagram TBA12~12,TBC12-12 TBA12-22,TBC12-22 22.9(.9) 22.7(.894) 0,3/,018) 4.6X4=18.4(.724) a 4.6X4=18.4(.724 8(.315)4(.157)MIN 3S oy a rv | Ooo! = COPOg | Ff 3933] | E, jf bees Le 3% |OOOG0 =3 fs O99 Z | Oooo, fs FF] POCOO- Fre 3 loo dod, Sa Fy POPOO : IO DOO = {ROCESS 0600 GE OPO Ls | _ 6 1 10 g(.315] 4(.157)MIN - - * t ; TT] pttoen | | i | | #0.8(0.02) L___.} 2(.078)xX9(.354) = 18(.709) TBA12~12 TBAI2-22 5 7 4 131216139 14 10 1 2 89 1112 1314 1516 1718 1920 cl c2 c3 c4 cs R7 R6 RS RS RZ RZ RI PIN wad | tt tt La Pm 2 Re oH ri Tt cr 15 R3 Ae # c24 oe 3 R4 C35 ' Re C46 a R7 x a, cs7 GREEN * rep TBC12-12 TBC1222 5 7 4 11216 139 14 10 1 2 89 1112 1314 1516 1718 1920 ct c2 cs c4 cs R7 R6 RS R4 RZ R2 R1 PIN . ew ata | tt tt Lal Pw 2 R22 | ry oT 4 | 3 c13 5 a3 mw x c24 3 R4 =. C35 11 RS7- TT C46 6 R6--j- i 8 R7 x Np a C57 . 74 Notes: . 1. All dimensions are in millimeters (inches). 2. Toleranca is +0.25(0.01"}unless otherwise noted. 3. Lead spacing is measured where the lead emerge package. 4. Specifications are subjected to change whitout natice. 7-17Selection Guide lv (ucd) : @ 10mA Part No. Dice : Description Min. Max. TA12-11HWA Column Anode BRIGHT RED (GaP) 560 1400 TCO12-1 1 HWA Column Cathode TA12-11EWA - Column Anode HIGH EFFICIENCY RED (GaAsP/GaP) 3600 9000 TC12-11 EWA Column Cathode TA12-11GWA Column Anode GREEN (GaP) 2200 5600 TC12-11GWA Column Cathode TA12-11YWA Column Anode YELLOW (GaAsP/GaP) 2200 5600 TCO12-11YWA Column Cathode TAi2-11SRWA Column Anode SUPER BRIGHT RED (GaAIAs) 5600 14000 TC12-11SRWA Calumn Cathode TBA12-11EGWA HIGH EFFICIENCY RED (GaAsP/GaP) 2200 9000 Column Anode TBC12-11EGWA GREEN (GaP) 2200 gooo _| Column Cathode TBA12-12EGWA HIGH EFFICIENCY RED (GaAsP/GaP) 2200 9000 Column Anode TBC12-12EGWA GREEN (GaP) 2200 9000 _| Column Cathode TBA12-22EGWA HIGH EFFICIENCY RED (GaAsP/GaP) 2200 9000 Column Anode TBC12-22EGWA GREEN (GaP) 2200 goo0 _| Column Cathode Electrical / Optical Characteristics at Ta=25C Symbol Parameter Device Typ Max Units Test . Conditions BrghtRed 700 High Efficiency Red 625 peak Peak Wavelength Green 565 nm IF=20mA Yellow : 90 Super Bright Red 660 Bright Red R 45 : High Efficiency Red 45 AA1I2 Speci Green 30 nm IF=20mA Yellow 35 Super Bright Red 20 Bright Red 40 High Efficiency Red 12 Cc Capacitance Green 45 pF VF=0V;f=1MHz Yellow 10 Super Bright Red 95 Bright Red 2.0 2.5 High Efficiency Red 2.0 2.5 Ve Forward Voltage Green 2.2 2.5 Vv |F=20mA Yellow 2.1 2.5 Super Bright Red 1.85 2.5 Ip Reverse Current All 10 uA VR = 5V 7-18Absolute Maximum Ratings at T,=25C High Super Parameter Bright Red Efficiency Green Yellow Bright Units Red Red Power dissipation 120 105 105 105 100 mw DC Forward Current 25 30 25 30 30 mA Peak Forward Current [1] 150 150 150 150 150 mA Reverse Voltage 5 5 5 5. 5 Vv Operating/Storage Temperature -40C To +85C Lead Soldering Temperature [2] 260C For 5 Seconds Notes: 1. 1<10ps. 2. 4mm below package base. Hi. EFFICIENCY : GREEN YELLOW RED GaAlAs BRIGHT RED RED 1.0 2 Ta =25C c 2 . 5 = O85 3 / \ o wt vo 2 : $ KX Z " au 9 500 550 600 650 700 750 800 Wovelength 4 (nm) RELATIVE INTENSITY Vs. WAVELENGTH Bright Red 50 os - = 4 c ~ 3% 5S 30 > = oO 3 2 20 - 20 5 z = s 6 10 z 10 aw ~ a a Q 12 16 20 24 28 30 20 40 60 #80 100 Forward Voltage(v) Ambient Temperature Ta (C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE < . 2 o 4.0 2 ~ ~ . 2 zi =. WES 5 ~ 30 g .t a 2 3 2 =~ 2 $$ 20 oS 5 o 5 , > a - E 10 > 02 3 2 - -- 2 . _ 2 2 01 eo 10 200 SQ 4 S80 ce -30 -10010 30 $0 70 1-Forward Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT Ambient Temperoture Ta(C) LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURE 7-19High Efficiency Red ~ 380 ~ < = i 40 . = ~ 2 5 (30 5 5 NY . 3 a NJ P - - 20 WN 5 z NJ x So - N 5 z 10 uo ~ o Le oO 12 16 20 24 28 3.0 20 40 60 680 100 Forward Voltoge(V) : Ambient Temperature Ta(C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE t- 2 3S a > s 2 % + = yt] 3 g PT = 2 ] vo 2 os ss E 2 5 = E g g 0.2 + 3 3 2 10 20 30 4050 a 0.1 \1f=Forward Current(mA) Oto o O30 500 Ambient Temperature Ta(C)} LUMINOUS INTENSITY Vs. FORWARD CURRENT LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURE Green 50 ~ 50 = = 40 5 9 = o e 3 30 3 2 8 a : 2 tee 0 eS 1 10 0 2 12 #16 20 -24 28 3.0 20 40 80 80 100 Forward Voltege(V) Ambient Temperature Ta(C) FORWARD CURRENT Ys. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE - 2 S e 3 ~ 2 ant s Cc 2 w 1 3 & 8 5 E 0.5 2 $s 3 0. Se: : 3 3 oon ir 10 20 30 40 50 m= - -10010 3 SO. 70 ip-Forward Current(mA) Ambient Temperature Ta(C) LUMINOUS INTENSITY Vs. FORWARD CURRENT LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURE 7-20Luminous Intensity Relotive Volue ot Ir=20mA 0 20 NH WN -Forward Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT Super Bright Red 10 Forword Current(mA) 0 12016 20 24 28 3.0 Forward Voltage(V} FORWARD CURRENT Vs. FORWARD VOLTAGE 4.0 3.0 2.0 1.0 20 100 w-Forward Current(mA)} *LUMINOUS INTENSITY Vs, FORWARD CURRENT 0.1 -~3O -100 10 30 30 .70 Ambient Temperature Ta(C) LUMINOUS INTENSITY Vs, AMBIENT TEMPERATURE _ wd Yellow ~ 50 ~ < < E = 0 c & o 30 a NJ ey LLLPN 5 2 NI > 3 NS 3 2 10 2 5 ] ue o 0 120616 #20 24 28 3.0 20 40 #60 BO 100 Forward Voiltage(V) Ambient Temperature Ta(C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARO CURRENT DERATING CURVE z 2 3 a > 1 s ? a oS _ 3 - 0 2 5s = os w =~ E le 2 3 = an c 2 2 & z = 40 5 30 S NA o er) J 8 N $ . N. 10 o : l 0 20 44060s 80100 Ambient Temperature Ta( C) FORWARD CURRENT DERATING CURVE = 3 S 2 s ' a wn 1 = 3 P~ & ~ E 0.5 3 - a o. 02 2 3 e o.41 - c. % SO 70 -30 -100 10 Ambient Temperature Ta("C) LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURE 7-21