Dn OZ) -\\y. 40 (84- 43mm (0.52INCH) SINGLE DIGIT Ki ng brig ht NUMERIC DISPLAYS SA52-11 SC52-11 Features Description 00.52 INCH DIGIT HEIGHT. The Red source color device are made with Gallium eLOW CURRENT OPERATION. Arsendide Phosphide Red Light Emitting Diode. The Bright Red source color devices are made with Gallium Phosphide Red Light Emitting Diode. The Green source color devices are made with Gaflium Phosphide Green Light Emitting Diode. The High Efficiency Red source color devices are made with eEXCELLENT CHARACTER APPEARANCE. eEASY MOUNTING ON P.C. BOARDS OR SOCKETS. el.C. COMPATIBLE. eCATEGORIZED FOR LUMINOUS INTENSITY, YELLOW AND GREEN CATEGORIZED FOR COLOR. Gallium Arsenide Phosphide on Gallium Phosphide Orange eMECHANICALLY RUGGED. Light Emitting Diode. *STANDARD : GRAY FACE, WHITE SEGMENT. The Yellow source color devices are made with Gallium 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. Package Dimensions Internal Circuit Diagram 12.4(.49) 7.62(0.3 . Po ) + I f+ hk SA52-11 0 = COMMON ANODE f b ~ 3 3,8 rs) 0 & a o 0 9 48 0 Re) | S| g CaS -+-3 & ~~ +t N nN nN . Fx wf} ao | b) c} di e; 1 gq] OP d DP + + b + 4P. - 7 6 4 2 1 9 10 #1.4(.055) 1 5 aA 7 S SC52-11 = COMMON CATHODE > - 3,8 w a 5 ! x a * d| e| fig |oP = 2 | 0.5(0.02) a | | y = 7 6 4 2 19 10 5 Notes: 4 AL 25461) | 1.12(0.044) 1. All dimensions are in millimeters (inches). 2. Tolerance is +0.25(0.01")unless otherwise noted. 3. Lead spacing is measured where the lead emerge package. 4. Specifications ara subjected to change whitout noticeEE Selection Guide lv (ucd) ; @10mA Part No. Dice Description Min. | Max. SA52-11RWA Common Anode, Rt Hand Decimal RED (GaAsP) 240 560 $C52-11RWA Common Cathode, Rt. Hand Decimal SA52-11HWA Common Anode, Rt Hand Decimal BRIGHT RED (GaP) 900 | 2200 $C52-11HWA Common Cathode, Rt. Hand Decimal SA52-11 EWA Common Anode, Rt Hand Decimal HIGH EFFICIENCY RED (GaAsP/GaP) 2200 5600 $C52-11EWA Common Cathode, Rt. Hand Decimal SA52-11GWA Common Anode, Rt Hand Decimal GREEN (GaP) 2200 5600 SC52-11GWA Common Cathode, Rt. Hand Decimal SA52-11YWA Common Anode, Rt Hand Decimal YELLOW (GaAsP/GaP) 2200 5600 SC52-11YWA Common Cathode, Rt. Hand Decimal SA52-11SRWA Common Anode, Rt Hand Decimal SUPER BRIGHT RED (GaAlAs) 5600 | 21000 $C52-11SRWA Common Cathode, Rt. Hand Decimal Electrical / Optical Characteristics at T,=25C Symbol Parameter Device Typ Max Units Test . Conditions Red 660 Bright Red 700 High Efficiency Red 625 = Apeak Peak Wavelength | G9) Bee nm IF=20mA Yellow 90 Super Bright Red 660 Red 20 5 L Bright Red R 45 pectral Line High Efficiency Red 45 - AAt2 Halfwidth Green 30 nm IF=20mA Yellow 35 Super Bright Red 20 Red 40 Bright Red 40 Cc Capacitance fagh Efficiency Red ie pF VF=0V;f=1MHz Yellow 10 Super Bright Red 95 Red 1.7 2.1 Bright | Red Red 2.0 2.5 igh Efficiency Re 2.0 2.5 _ Ve Forward Voltage Green 29 25 V IF=20mA Yellow 2.1 2.5 Super Bright Red 1.85 2.5 Ir Reverse Current All 10 uA VR = 5VAbsolute Maximum Ratings at T,=25C Bright High Super Parameter Red Red Efficiency | Green | Yellow Bright Units Red Red Power dissipation 120 120 105 105 105 100 mW DC Forward Current 30 25 30 25 30 30 mA Peak Forward Current [1] 150 150 150 150 150 150 mA Reverse Voltage . 5 5 5 5 Vv 7 Operating/Storage Temperature -40C To +85C Lead Soldering Temperature [2] 260C For 5 Seconds Notes: : 1. telOps. : 2. 4mm below package base Hi. EFFICIENCY (RED) : GREEN YELLOW RED GoAlAs BRIGHT REO : RED 1.0 a~ z TA =25C Cc 2 5 = 0.5 3 / \ wr o 2 3 SJ ro 500 550 600 650 700 750 800 Wavelenath A (nm) : Red i < t j = - 5 <= : 5 30 5 t oO 3 P S20 3 z = 5 & g 10 * N 0 120616 20 2.4 28 3.0 20 40 60 80 100 Forward Voltage(V) Ambient Temperature Ta(C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE i < : E 2 : S 2 : > = nN : os +, a GS + SY } < 9 3 N o & 0.5 : $2 e : ag 5 i 24 0.2 gE $ g : 3 3 3 4 z 2 2 1 E ec 20 40 60 BO 100 oe -S -10010 30 50 70 5 if-Forward Current(mA) Ambient Temperature Ta("C) E. LUMINOUS INTENSITY Vs. FORWARD CURRENT LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURE Zas Bright Red > 50 ~ < x 40 _ g S30 3 c e 6 A 20 5 2 z 5 E = 10 rhe 5 ; ) 0 12,916 20 24 28 3,0 20 40 60 80 100 Forward Voltage(V) Ambient Temperature Ta(C) FORWARD CURRENT Ys. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE < 2 E a 3 5 2 : > 7 < ms eS . a % vw J ~ anor _ > ~~] st 2 nH 5 E 0.5 E 5 i 0.2 ~ 8 arr e 10 20 30 40 50 3 -10010 30 50 70 l-Forword Current(mA) Ambient Temperature Ta(C) LUMINOUS INTENSITY Vs. FORWARD CURRENT LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURE High Efficiency Red 50 E ~ 4 3 z te 5 : * N 6 3 N 6 2 20 S G 2 NY z g SS 5 z 10 L 5 ] ae 0 120616 20 24 2.8 3.0 20 40 60 80 100 Forward Voltage(V) Ambient Temperature Ta(C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE E > 3 Be >t 2 - : i , cee a ~~ n ze 8 AA 9 $ 3 E 0s g 3 c o E 2 3 0.2 a Qo 3 3 2 & 0 2 50 ge oly 19010 30 50 70 'r-Forward Current(mA) Ambient Temperoture Ta(C) LUMINOUS INTENSITY Vs. FORWARD CURRENT LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURELuminous Intensity Yellow Luminous Intensity Forward Current(mA) Forward Current(mA) Relative Volue ot Ir=10mA Relative Value at |r=10mA 12,716 20 24 2.8 Forward Voltage(V) FORWARD CURRENT Vs. FORWARD VOLTAGE 3.0 10 20 4 40 50 \p-Forword Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT 12 #16 20 24 28 Forward Voltage(V) FORWARD CURRENT Vs. FORWARD VOLTAGE 3.0 10 20 340 4 58 tt-Forward Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT > 50 a S 2 & " 4 3 & E 0.5 3 ot e 0.2 2 = o o Q.1 & - -10010 30 50. 70 Ambient Temperature Ta(C) LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURE < E < 40 e 30 NI oO 20 NX 5 g Nw 2 10 : 0 20 40 60 80 100 Ambient Temperature Ta("C) FORWARD CURRENT DERATING CURVE = % & 2 & =a $ ' J 5 c 0.5 3 3 (Oe 2 3 oo am - -10010 HN 50 70 Ambient Temperoture Ta(C) LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURESuper Bright Red Forword Current(mA) 0 120616 20 24 2.8 3.0 Forword Voltage(V) FORWARD CURRENT Vs. FORWARD VOLTAGE Luminous Intensity Relative Volue at [F=20mA 2a. 40 80 86100 f~Forward Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT < E x 40 < o 30 5 NY 3 N o 20 N E N gz N = 10 3 : ) 0 20 40 660 80 100 Ambient Temperature Ta( C) FORWARD CURRENT DERATING CURVE = 4 @ 2 Pod ~ hs J n 1 N 3 ow & ~~ e 0.5 3 a v 0.2 2 = 2 9 0.1 io 30 -10010 30 50 70 Ambient Temperature Ta(C) LUMINOUS INTENSITY Vs. AMBIENT TEMPERATURE