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Discrete Semiconductors Passive Components
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DATA BOOK
LEDs Displays
VISHAY INTERTECHNOLOGY, INC.
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Schottky (single, dual) Standard, Fast Ultra-Fast Recovery (single, dual) Clamper/Damper Bridge Superectifier Sinterglass Avalanche Diodes Schottky Switching (single, dual) Tuner/Capacitance (single, dual) Bandswitching Zener Diodes (single, dual) (TransZorb, Automotive, ESD, Arrays) Power MOSFETs JFETs Bipolar Transistors Dual Gate MOSFETs MOSMICs® Emitters, Detectors Receiver Modules Opto Couplers Solid State Relays Optical Sensors LEDs Segment Displays Infrared Data Transceiver Modules Custom products Power Analog Switches Tantalum Capacitors Solid Tantalum Capacitors Tantalum Capacitors Ceramic Capacitors Multilayer Chip Capacitors Disc Capacitors Film Capacitors Power Capacitors Heavy Current Capacitors Aluminum Capacitors Silicon Capacitors Foil Resistors Film Resistors Thin Film Resistors Thick Film Resistors Metal Oxide Film Resistors Carbon Film Resistors Wirewound Resistors Variable Resistors Cermet Variable Resistors Wirewound Variable Resistors Conductive Plastic Variable Resistors Networks/Arrays Non-Linear Resistors Thermistors Thermistors Varistors Inductors Transformers
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LEDs Displays Databook 2004
Vishay Semiconductor GmbH P.O.B. 3535, D-74025 Heilbronn, Germany Telephone: (0)7131 2831, number: (0)7131 2423 Web: www.vishay.com
Information contained this paper intended provide product description. Such description does constitute assured characteristics legal sense, those design hints provide information regarding delivery conditions availability. Vishay Semiconductor GmbH makes representation that interconnection circuits described herein will infringe existing future patent rights, descriptions contained herein imply granting licenses make, sell equipment constructed accordance therewith. information presented this paper believed accurate reliable. However, responsibility assumed Vishay Semiconductor GmbH use. Part publication reproduced without special permission condition that author source quoted that copies such extracts placed disposal after publication. Written permission should obtained from publisher complete reprints translations. reserve right amend information without prior notice, including issue letters patent. products listed this catalog generally recommended life support systems where failure malfunction component directly threaten life cause injury. user products such applications assumes risks such will agree hold Vishay Semiconductor GmbH companies whose products represented this catalog, harmless against damages. operating parameters including 'typicals' must validated each customer application customer's technical experts. Brand product names used this booklet trademarks registered trademarks their respective holders.
2004 Copyright Vishay Intertechnology, Inc. Registered Trademarks Vishay Intertechnology, Inc. rights reserved. Printed (Germany) Specifications subject change without notice. Please view latest data sheet editions under www.vishay.com.
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Vishay Semiconductors
Alphanumeric Index. Selector Guides. General Information. General Information Physics Optoelectronic Devices. Measuring Technique Component Construction Classification Components Classification SMD-LEDs Mini-LEDs. Classification Displays Classification TELUX Classification LEDs. Packing Order Information Assembly Instructions Quality Information. Safety. LEDs Datasheets. Displays Datasheets
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Alphanumeric Index
Vishay Semiconductors
Selector Guide Segment Displays Selector Guide LEDs
TLHF5400 TLHF5800 TLHG Y420. TLHG Y440. TLHG Y4900 TLHG Y5800 TLHG Y460. TLHG Y520. TLHG Y540. TLHG Y620. TLHG Y640. TLHK4200 TLHK4400 TLHK4600 TLHK4900 TLHK5400 TLHK5800 TLHR4206 TLHW490. TLHW5100 TLHW5400 TLLG Y440. TLLG Y540. TLMA3100 TLMB TG31. TLMB Y1100 TLMB Y2100 TLMB310. TLMC310. TLMD310. TLME K2300 TLME310. TLMEK3100 TLMF310. TLMG Y310. TLMK Y320. TLMK Y330. TLMK310. TLMKE340.
TDCG Y10.m TDSG Y11. TDSG Y31. TDSG Y51. TDSL11. TDSL31. TDSL51. TDSR07./ 10./ TLBR5410 TLCB Y5100 TLCB Y5200 TLCB Y5800 TLCW5100 TLDR440. TLDR490. TLDR5400 TLDR5800 TLHB420. TLHB440. TLHB510. TLHB540. TLHB580. TLHE P510. TLHE4200 TLHE4400 TLHE4600 TLHE4900 TLHE5400 TLHE5800 TLHF4200 TLHF4600 TLHF4900
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Alphanumeric Index
Vishay Semiconductors
VISHAY
TLMO Y1000 TLMO Y2000 TLMO Y300. TLMPG TLMYG3200 TLMPG TLMYG330. TLMS310. TLMT3100 TLMV3100 TLMW310. TLMW3145 TLMW3146 TLMW330. TLPG Y5600 TLRE4200 TLRE4406 TLRG Y440. TLRG Y4420 TLRP4900 TLRY4220 TLSV5100 TLUG Y240. TLUR240. TLUR440. TLUR540. TLUR640. TLUV5300 TLVB4200 TLVD4200 TLVG Y420. TLWB Y7600 TLWB Y7900 TLWB Y8600 TLWB Y8900 TLWR7601 TLWR7901 TLWR8901 TLWR9000 TLWR9600 TLWR962.
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TLWR990. TLWR992. TLWW8600 TLWW8900 TLWW9600 TLWW9900
VISHAY
Alphanumeric Index
Vishay Semiconductors
TDCG1050m.Multi Digit Displays, Green, (2.8 4.0) TDCG1060m.Multi Digit Displays, Green, (2.8 4.0) TDCR1050m .Multi Digit Displays, Red, (4.0 6.0) TDCR1060m .Multi Digit Displays, Red, (4.0 6.0) TDCY1050m .Multi Digit Displays, Super Yellow, (4.0 8.0) TDCY1060m .Multi Digit Displays, Super Yellow, (4.0 8.0) TDSG1150 .Single Digit Displays, Green TDSG1160 .Single Digit Displays, Green TDSG3150 .Single Digit Displays, Green TDSG3160 .Single Digit Displays, Green TDSG5150 .Single Digit Displays, Green, TDSG5160 .Single Digit Displays, Green, TDSL1150.Single Digit Displays, High efficiency TDSL1160.Single Digit Displays, High efficiency TDSL3150.Single Digit Displays, TDSL3160.Single Digit Displays, TDSL5150.Single Digit Displays, TDSL5160.Single Digit Displays, TDSO1150 .Single Digit Displays, Orange TDSO1160 .Single Digit Displays, Orange TDSO3150 .Single Digit Displays, Orange TDSO3160 .Single Digit Displays, Orange TDSO5150 .Single Digit Displays, Orange red, TDSO5160 .Single Digit Displays, Orange red, TDSR0750 .Single Digit Displays, High intensity current TDSR0760 .Single Digit Displays, High intensity current TDSR1050 .Single Digit Displays, High intensity current TDSR1060 .Single Digit Displays, High intensity current TDSR1350 .Single Digit Displays, High intensity current TDSR1360 .Single Digit Displays, High intensity current TDSY1150 .Single Digit Displays, Yellow TDSY3150 .Single Digit Displays, Yellow TDSY3160 .Single Digit Displays, Yellow TDSY5150 .Single Digit Displays, Yellow, TDSY5160 .Single Digit Displays, Yellow, TLBR5410.Blinking LEDs, Red, TLCB5100.Ultra-Bright LEDs, Blue, 1500 (typ.) TLCB5200.Ultra-Bright LEDs, Blue, TLCB5800.Ultra-Bright LEDs, Blue, TLCR5100.Ultra-Bright LEDs, Red, 11000 (typ.)
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Alphanumeric Index
Vishay Semiconductors
VISHAY
TLCR5200. Ultra-Bright LEDs, Red, 1350 TLCR5800. Ultra-Bright LEDs, Red, 7500 TLCTG5100 Ultra-Bright LEDs, True green, 5000 (typ.) TLCTG5200 Ultra-Bright LEDs, True green, TLCTG5800 Ultra-Bright LEDs, True green, 2400 TLCW5100 Ultra-Bright LEDs, White, 4000 (typ.) TLCY5100 Ultra-Bright LEDs, Yellow, 7500 (typ.) TLCY5101 Ultra-Bright LEDs, Yellow, 5750 20000 TLCY5200 Ultra-Bright LEDs, Yellow, 1350 TLCY5800 Ultra-Bright LEDs, Yellow, 5750 TLDR4400. Standard LEDs, Red,IV TLDR4401. Standard LEDs, Red, TLDR4900. Standard LEDs, Red, TLDR4901. Standard LEDs, Red, 200) TLDR5400. Standard LEDs, Red, TLDR5800. Standard LEDs, Red, 1000 TLHB4200 Standard LEDs, Blue, TLHB4201 Standard LEDs, Blue, 132) TLHB4400 Standard LEDs, Blue, TLHB4401 Standard LEDs, Blue, TLHB5100 Standard LEDs, Blue TLHB5102 Standard LEDs, Blue (130 360) TLHB5400 Standard LEDs, Blue, TLHB5401 Standard LEDs, Blue, TLHB5800 Standard LEDs, Blue, TLHB5802 Standard LEDs, Blue, (240 640) TLHE4200 Standard LEDs, Yellow, TLHE4400 Standard LEDs, Yellow, TLHE4600 Standard LEDs, Yellow, TLHE4900 Standard LEDs, Yellow, TLHE5100 Standard LEDs, Yellow, TLHE5400 Standard LEDs, Yellow, TLHE5800 Standard LEDs, Yellow, 1000 TLHF4200 Standard LEDs, Soft Orange, TLHF4600 Standard LEDs, Soft Orange, TLHF4900 Standard LEDs, Soft Orange, TLHF5400 Standard LEDs, Soft Orange, TLHF5800 Standard LEDs, Soft Orange, 1000 TLHG4200. Standard LEDs, Green, TLHG4201. Standard LEDs, Green, TLHG4205. Standard LEDs, Green, TLHG4400. Standard LEDs, Green, TLHG4401. Standard LEDs, Green,
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Alphanumeric Index
Vishay Semiconductors
TLHG4405 .Standard LEDs, Green, TLHG4600 .Standard LEDs, Green, TLHG4601 .Standard LEDs, Green, TLHG4605 .Standard LEDs, Green, TLHG4900 .Standard LEDs, Green, TLHG5100 .Standard LEDs, Green, TLHG5101 .Standard LEDs, Green, TLHG5102 .Standard LEDs, Green, TLHG5200 .Standard LEDs, Green, (typ.) TLHG5201 .Standard LEDs, Green, (typ.) TLHG5205 .Standard LEDs, Green, (typ.) TLHG5400 .Standard LEDs, Green, (typ.) TLHG5401 .Standard LEDs, Green, (typ.) TLHG5405 .Standard LEDs, Green, (typ.) TLHG5800 .Standard LEDs, Green, TLHG6200 .Standard LEDs, Green, (typ.) TLHG6201 .Standard LEDs, Green, (typ.) TLHG6205 .Standard LEDs, Green, (typ.) TLHG6400 .Standard LEDs, Green, (typ.) TLHG6401 .Standard LEDs, Green, (typ.) TLHG6405 .Standard LEDs, Green, (typ.) TLHK4200.Standard LEDs, Red, TLHK4400.Standard LEDs, Red, TLHK4600.Standard LEDs, Red, TLHK4900.Standard LEDs, Red, TLHK5100.Standard LEDs, Red, TLHK5400.Standard LEDs, Red, TLHK5800.Standard LEDs, Red, 1000 TLHO4200 .Standard LEDs, Soft orange, TLHO4201 .Standard LEDs, Soft orange, TLHO4400 .Standard LEDs, Soft orange, TLHO4900 .Standard LEDs, Soft orange, TLHP4200.Standard LEDs, Pure green, TLHP4201.Standard LEDs, Pure green, TLHP4400.Standard LEDs, Pure green, 0.63 TLHP4401.Standard LEDs, Pure green, TLHP4405.Standard LEDs, Pure green, TLHP4900.Standard LEDs, Pure green, TLHP5100.Standard LEDs, Pure green, TLHP5101.Standard LEDs, Pure green, TLHP5102.Standard LEDs, Pure green, TLHP5800.Standard LEDs, Pure green, TLHR4200.Standard LEDs, Red,
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Alphanumeric Index
Vishay Semiconductors
VISHAY
TLHR4201. Standard LEDs, Red, TLHR4205. Standard LEDs, Red, TLHR4206. Standard LEDs, Red, TLHR4400. Standard LEDs, Red, TLHR4401. Standard LEDs, Red, TLHR4405. Standard LEDs, Red, TLHR4600. Standard LEDs, Red, TLHR4601. Standard LEDs, Red, TLHR4605. Standard LEDs, Red, TLHR4900. Standard LEDs, Red, TLHR5200. Standard LEDs, Red, (typ.) TLHR5201. Standard LEDs, Red, (typ.) TLHR5205. Standard LEDs, Red, (typ.) TLHR5400. Standard LEDs, Red, (typ.) TLHR5401. Standard LEDs, Red, (typ.) TLHR5405. Standard LEDs, Red, (typ.) TLHR6200. Standard LEDs, Red, (typ.) TLHR6201. Standard LEDs, Red, (typ.) TLHR6205. Standard LEDs, Red, (typ.) TLHR6400. Standard LEDs, Red, (typ.) TLHR6401. Standard LEDs, Red, (typ.) TLHR6405. Standard LEDs, Red, (typ.) TLHW4900 Standard LEDs, White, TLHW4901 Standard LEDs, White, (240 860) TLHW5100 Standard LEDs, White, TLHW5400 Standard LEDs, White, TLHY4200 Standard LEDs, Yellow, TLHY4201 Standard LEDs, Yellow, TLHY4205 Standard LEDs, Yellow, TLHY4400 Standard LEDs, Yellow, TLHY4401 Standard LEDs, Yellow, TLHY4405 Standard LEDs, Yellow, TLHY4600 Standard LEDs, Yellow, 0.63 TLHY4601 Standard LEDs, Yellow, TLHY4605 Standard LEDs, Yellow, TLHY4900 Standard LEDs, Yellow, TLHY5200 Standard LEDs, Yellow, (typ.) TLHY5201 Standard LEDs, Yellow, (typ.) TLHY5205 Standard LEDs, Yellow, (typ.) TLHY5400 Standard LEDs, Yellow, (typ.) TLHY5401 Standard LEDs, Yellow, (typ.) TLHY5405 Standard LEDs, Yellow, (typ.) TLHY5800 Standard LEDs, Yellow,
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Alphanumeric Index
Vishay Semiconductors
TLHY6200.Standard LEDs, Yellow, (typ.) TLHY6201.Standard LEDs, Yellow, (typ.) TLHY6205.Standard LEDs, Yellow, (typ.) TLHY6400.Standard LEDs, Yellow, (typ.) TLHY6401.Standard LEDs, Yellow, (typ.) TLHY6405.Standard LEDs, Yellow, (typ.) TLLG4400 .Standard LEDs, Green, 0.63 TLLG4401 .Standard LEDs, Green, TLLG5400 .Standard LEDs, Green, 0.63 TLLG5401 .Standard LEDs, Green, TLLR4400 .Standard LEDs, Red, 0.63 TLLR4401 .Standard LEDs, Red, TLLR5400 .Standard LEDs, High eff. red, 0.63 TLLR5401 .Standard LEDs, High eff. red, TLLY4400 .Standard LEDs, Yellow, 0.63 TLLY4401 .Standard LEDs, Yellow, TLLY5400 .Standard LEDs, Yellow, 0.63 TLLY5401 .Standard LEDs, Yellow, TLMA3100 .SMD LEDs, Yellow, 0.25 TLMB1100 .SMD LEDs, Blue, (typ.) TLMB2100 .SMD LEDs, Blue, (typ.) TLMB3100 .SMD LEDs, Blue, TLMB3101 .SMD LEDs, Blue, (4.0 12.5) TLMB3104 .SMD LEDs, Blue, (5.0 12.5) TLMB3106 .SMD LEDs, Blue, (5.0 20.0) TLMB3140 .SMD LEDs, Blue, TLMBG3100.SMD LEDs, Blue green, TLMC3100 .SMD LEDs, Green, 0.63 TLMC3101 .SMD LEDs, Green, TLMD3100 .SMD LEDs, Red, (typ.) TLMD3101 .SMD LEDs, Red, TLMD3105 .SMD LEDs, Red, TLME2300 .SMD LEDs, Yellow, (typ.) TLME3100 .SMD LEDs, Yellow, TLME3101 .SMD LEDs, Yellow, to100) TLME3105 .SMD LEDs, Yellow, 160) TLMEK3100 .SMD LEDs, Red/Yellow TLMF2300.SMD LEDs, Orange, (typ.) TLMF3100.SMD LEDs, Soft orange, TLMF3101.SMD LEDs, Soft orange, 125) TLMG1100 .SMD LEDs, Green, (typ.) TLMG2100 .SMD LEDs, Green, (typ.) TLMG3100 .SMD LEDs, Green,
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Alphanumeric Index
Vishay Semiconductors
VISHAY
TLMG3102 LEDs, Green, TLMG3105 LEDs, Green, (6.3 TLMH3100 LEDs, Red, TLMH3101 LEDs, Red, 12.5) TLMH3102 LEDs, Red, (6.3 TLMK2300. LEDs, Red, (typ.) TLMK3100. LEDs, Red,IV TLMK3102. LEDs, Red, TLMK3105. LEDs, Red, 100) TLMK3200. LEDs, Red, (typ. mcd) TLMK3201. LEDs, Red, (250 800) TLMK3202. LEDs, Red, (320 800) TLMK3203. LEDs, Red, (400 1250) TLMK3300. LEDs, Red, TLMK3301. LEDs, Red, (250 800) TLMK3302. LEDs, Red, (400 800) TLMK3303. LEDs, Red, (400 1250) TLMKE3400 Special LEDs, Red/Yellow, TLMKE3401 Special LEDs, Red/Yellow, TLMO1000 LEDs, Soft Orange, (typ.) TLMO1100 LEDs, Orange, (typ.) TLMO2000 LEDs, Orange, (typ.) TLMO2100 LEDs, Soft orange, (typ.) TLMO3000 LEDs, Orange, (typ.) TLMO3001 LEDs, Orange, (typ.) TLMO3100 LEDs, Soft orange, TLMO3101 LEDs, Soft orange, 12.5) TLMO3200 LEDs, Soft orange, (typ. mcd) TLMO3201 LEDs, Soft orange, (250 800) TLMO3202 LEDs, Soft orange, (320 800) TLMO3203 LEDs, Soft orange, (400 1250) TLMO3300 LEDs, Soft orange, TLMO3301 LEDs, Soft orange, (250 640) TLMO3302 LEDs, Soft orange, (320 800) TLMO3303 LEDs, Soft orange, (400 1250) TLMP1100. LEDs, Pure green, (typ.) TLMP2100. LEDs, Pure green, (typ.) TLMP3100. LEDs, Pure green, TLMP3101. LEDs, Pure green, (1.6 TLMP3102. LEDs, Pure green, (2.5 TLMP3107. LEDs, Pure green, (2.5 TLMPG3200. LEDs, Pure Green, (typ.) TLMPG3300. LEDs, Pure Green, (typ.)
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Alphanumeric Index
Vishay Semiconductors
TLMPG3301.SMD LEDs, Pure Green, TLMS1000 .SMD LEDs, Red, (typ.) TLMS1100 .SMD LEDs, Red, (typ.) TLMS2000 .SMD LEDs, Red, (typ.) TLMS2100 .SMD LEDs, Red, (typ.) TLMS3000 .SMD LEDs, Red, (typ.) TLMS3001 .SMD LEDs, Red, (typ.) TLMS3100 .SMD LEDs, Red, TLMS3101 .SMD LEDs, Red, 12.5) TLMS3200 .SMD LEDs, Red, (typ. mcd) TLMS3201 .SMD LEDs, Red, (160 400) TLMS3202 .SMD LEDs, Red, (250 800) TLMS3300 .SMD LEDs, Red, TLMS3301 .SMD LEDs, Red, (160 400) TLMS3302 .SMD LEDs, Red, (250 800) TLMT3100.SMD LEDs, Red, (typ.) TLMTG3100.SMD LEDs, True green, TLMV3100 .SMD LEDs, Green/Red, TLMW3100 .SMD LEDs, White, TLMW3101 .SMD LEDs, White, 200) TLMW3102 .SMD LEDs, White, (125 320) TLMW3145 .SMD LEDs, White, (typ.) TLMW3146 .SMD LEDs, White, (typ.) TLMW3300 .SMD LEDs, White, (typ.) TLMY1000 .SMD LEDs, Yellow, (typ.) TLMY1100 .SMD LEDs, Yellow, (typ.) TLMY2000 .SMD LEDs, Yellow, (typ.) TLMY2100 .SMD LEDs, Yellow, (typ.) TLMY3000 .SMD LEDs, Yellow, (typ.) TLMY3001 .SMD LEDs, Yellow, (typ.) TLMY3100 .SMD LEDs, Yellow, TLMY3102 .SMD LEDs, Yellow, (6.3 TLMY3200 .SMD LEDs, Yellow, (typ. mcd) TLMY3201 .SMD LEDs, Yellow, (250 800) TLMY3202 .SMD LEDs, Yellow, (320 800) TLMY3203 .SMD LEDs, Yellow, (400 1250) TLMY3300 .SMD LEDs, Yellow, TLMY3301 .SMD LEDs, Yellow, (250 640) TLMY3302 .SMD LEDs, Yellow, (320 800) TLMY3303 .SMD LEDs, Yellow, (400 1250) TLMYG3200.SMD LEDs, Yellow Green, (typ.) TLMYG3300.SMD LEDs, Yellow Green, (typ.) TLPG5600.Special LEDs, Green, 0.63
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Alphanumeric Index
Vishay Semiconductors
VISHAY
TLPH5600 Special LEDs, Red, 0.63 TLPP5600 Special LEDs, Pure green, 0.63 TLPR5600 Special LEDs, Red, TLPY5600 Special LEDs, Yellow, 0.63 TLRE4200 Resistor LEDs, Yellow, TLRE4406 Resistor LEDs, Yellow, TLRG4400. Resistor LEDs, Green, TLRG4420. Resistor LEDs, Green, TLRH4400. Resistor LEDs, Red, TLRH4420. Resistor LEDs, Red, TLRO4400. Resistor LEDs, Soft orange, TLRO4420. Resistor LEDs, Soft orange, TLRP4400 Resistor LEDs, Pure green, 0.63 TLRP4401 Resistor LEDs, Pure green, TLRP4406 Resistor LEDs, Pure green, (1.6 TLRP4900 Resistor LEDs, Pure green, TLRY4220 Resistor LEDs, Yellow, TLRY4400 Resistor LEDs, Yellow, TLRY4420 Resistor LEDs, Yellow, TLSV5100 Special LEDs, Green Red, 0.63 TLUG2400. Special LEDs, Geen, TLUG2401. Special LEDs, Green, TLUO2400. Special LEDs, Red, TLUO2401. Special LEDs, Red, TLUR2400. Special LEDs, Red, (typ.) TLUR2401. Special LEDs, Red, TLUR4400. Standard LEDs, Red, TLUR4401. Standard LEDs, Red, TLUR5400. Standard LEDs, Red, TLUR5401. Standard LEDs, Red, TLUR6400. Standard LEDs, Red, TLUR6401. Standard LEDs, Red, TLUV5300 Special LEDs, Green Red, TLUY2400 Special LEDs, Yellow, TLUY2401 Special LEDs, Yellow, (2.5 12.5) TLVB4200 Backlighting LEDs, Blue, TLVD4200 Backlighting LEDs, Red, TLVG4200. Backlighting LEDs, Green, TLVH4200 Backlighting LEDs, Red, TLVH4201 Backlighting LEDs, Red, TLVP4200 Backlighting LEDs, Pure green, TLVS4200 Backlighting LEDs, Soft orange, TLVY4200 Backlighting LEDs, Yellow,
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Alphanumeric Index
Vishay Semiconductors
TLWB7600 .TELUX (TM) LEDs, Blue, (200 630) TLWB7900 .TELUX (TM) LEDs, Blue, (typ.) TLWB8600 .TELUX (TM) LEDs, Blue, (typ.) TLWB8900 .TELUX (TM) LEDs, Blue, (typ.) TLWBG7600 .TELUX (TM) LEDs, Blue green, (400 1250) TLWBG7900 .TELUX (TM) LEDs, Blue green, (typ.) TLWBG8600 .TELUX (TM) LEDs, Blue green, 1300 (typ.) TLWBG8900 .TELUX (TM) LEDs, Blue green, 1300 (typ.) TLWO7600.TELUX (TM) LEDs, Soft orange, (1500 3000) TLWO7900.TELUX (TM) LEDs, Softorange, 2100 (typ.) TLWR7600.TELUX (TM) LEDs, Red, (1500 3000) TLWR7601.TELUX (TM) LEDs, Red, (1500 3600) TLWR7900.TELUX (TM) LEDs, Red, 2100 (typ.) TLWR7901.TELUX (TM) LEDs, Red, (1500 4200) TLWR8600.TELUX (TM) LEDs, Red, 3000 (typ.) TLWR8900.TELUX (TM) LEDs, Red, 3000 (typ.) TLWR8901.TELUX (TM) LEDs, Red, (2000 4800) TLWR9000.TELUX (TM) LEDs, Red, 2500 TLWR9600.TELUX (TM) LEDs, Red, 2500 TLWR9620.TELUX (TM) LEDs, Red, 3000 TLWR9621.TELUX (TM) LEDs, Red, 3500 TLWR9622.TELUX (TM) LEDs, Red, 4000 TLWR9900.TELUX (TM) LEDs, Red, 2500 TLWR9901.TELUX (TM) LEDs, Red, (2500 6100) TLWR9920.TELUX (TM) LEDs, Red, 3000 TLWR9921.TELUX (TM) LEDs, Red, 3500 TLWR9922.TELUX (TM) LEDs, Red, 4000 TLWTG7600 .TELUX (TM) LEDs, True green, (630 1800) TLWTG7900 .TELUX (TM) LEDs, True green, (typ.) TLWTG8600 .TELUX (TM) LEDs, True green, 3000 (typ.) TLWTG8900 .TELUX (TM) LEDs, True green, 3000 (typ.) TLWW7600 .TELUX (TM) LEDs, White, (200 630) TLWW7900 .TELUX (TM) LEDs, White, (typ.) TLWW8600 .TELUX (TM) LEDs, White, TLWW8900 .TELUX (TM) LEDs, White, TLWW9600 .TELUX (TM) LEDs, White, 1500 TLWW9900 .TELUX (TM) LEDs, White, 1500 TLWY7600 .TELUX (TM) LEDs, Yellow, (1000 2400) TLWY7900 .TELUX (TM) LEDs, Yellow, 1400 (typ.) TLWY8600 .TELUX (TM) LEDs, Yellow, 3000 (typ.) TLWY8900 .TELUX (TM) LEDs, Yellow, 3000 (typ.)
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Alphanumeric Index
Vishay Semiconductors
VISHAY
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Selector Guides
General Information
LEDs Datasheets
Displays Datasheets
VISHAY
Selector Guide LEDs
Vishay Semiconductors
Selector Guides
LEDs
Part Number Angle Color Wavelength [nm] [mcd] [mA] [mA] Page
2-pad MiniLED, Current
TLMS2000 TLMO2000 TLMY2000
tlmx2
Soft Orange Yellow
598-611 581-594
(>2.0) (>4.0) (>3.2)
(<2.2) (<2.2) (<2.2)
2-pad MiniLED, Standard
TLMS2100 TLMO2100 TLMY2100
tlmx2
Soft Orange Yellow Green Pure Green Blue
624-636 598-611 581-594 562-575 555-565
(>2.5) (>3.2) (>3.2) 10.0 (>6.3) (>1.0) (>4.0)
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<4.5)
TLMG2100 TLMP2100 TLMB2100
2-pad MiniLED, Ultra Bright
TLMK2300 TLMF2300 TLME2300
tlmx2
Soft Orange Yellow
598-611 581-594
(>32) (>50) (>50)
1.9(<2.6) 2.0(<2.6) 2.0(<2.6)
0603 LED, Standard
TLMS1000 TLMO1000 TLMY1000
tlmx1
Soft Orange Yellow Soft Orange Yellow Green Pure Green Blue
624-636 600-609 580-595 627-639 598-611 581-594 562-575 555-565
(>2.5) (>3.2) (>3.2) (>32) (>50) (>50) (>12.5) (>6.3) 12.5 (>4.0)
(<2.6) (<2.6) (<2.6) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<4.5)
TLMS1100 TLMO1100 TLMY1100 TLMG1100 TLMP1100 TLMB1100
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Selector Guide LEDs
Vishay Semiconductors LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA]
VISHAY
[mA]
Page
PLCC-2, High Intensity
TLMB3140 TLMBG3100 TLMTG3100
tlmx31
Blue Blue Green True Green Yellow Yellow Yellow Soft Orange Soft Orange White White White White White White
462-476 496-514 515-541 581-594 581-594 581-594 598-611 598-611 5500 5500 5500 5500 5500 5500
(>20) (>66) (>80) 20.0 (>10.0) (>25) (>25) (>10) (>80)
(<4.2) (<4.2) (<4.2) (<2.2) (<2.2) (<2.2) (<2.6) (<2.6) (<2.6) (<2.6) (<2.6) (<2.6) (<2.6) (<2.6) (<4.2) (<4.2) (<4.2) (<4.0) (<4.0) (<4.2)
TLMD3100 TLMD3101 TLMD3105 TLME3100 TLME3101 TLME3105 TLMF3100 TLMF3101 TLMK3100 TLMK3102 TLMK3105 TLMW3100 TLMW3101 TLMW3102 TLMW3145 TLMW3146 TLMW3300
PLCC-2, Current
TLMS3000 TLMS3001 TLMO3000
tlmx31
Soft Orange Soft Orange Yellow Yellow Yellow Green Green
624-636 624-636 600-609 600-609 581-594 581-594 581-594 563-575 563-575 612-625
>2.5 12.5 >5.0 20.0 >4.0 20.0 (>0.25) (>0.63) (>1.0) (>0.25)
(<2.2) (<2.2) (<2.2) (<2.2) (<2.2) (<2.2) (<2.9) (<2.4) (<2.4) (<2.9)
TLMO3001 TLMY3000 TLMY3001 TLMA3100 TLMC3100 TLMC3101 TLMT3100
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VISHAY
Selector Guide LEDs
Vishay Semiconductors LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA] [mA] Page
PLCC-2, Power
TLMPG3300 TLMPG3301 TLMYG3300
tlmx31
Pure Green Pure Green Yellow/ Green Soft Orange Soft Orange Soft Orange Soft Orange Yellow Yellow Yellow Yellow
555-567 555-567 566-577 611-622 611-622 611-622 611-622 626-638 626-638 626-638 600-611 600-611 600-611 600-611 583-594 583-594 583-594 583-594
(>25) (>63) (>200) 1250 (>160) (>200) 1250 (>200) 1250
(<2.6) (<2.6) (<2.6) 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55
TLMK3300 TLMK3301 TLMK3302 TLMK3303 TLMS3300 TLMS3301 TLMS3302 TLMO3300 TLMO3301 TLMO3302 TLMO3303 TLMY3300 TLMY3301 TLMY3302 TLMY3303
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Selector Guide LEDs
Vishay Semiconductors LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA]
VISHAY
[mA]
Page
PLCC-2, Standard
TLMH3100 TLMH3101 TLMH3102
tlmx31
Soft Orange Soft Orange Yellow Yellow Green Green Green Pure Green Pure Green Pure Green Pure Green Blue Blue Blue Blue
612-625 612-625 612-625 598-611 598-611 581-594 581-594 562-575 562-575 562-575 555-565 555-565 555-565 555-565 624-636 624-636
(>2.5) 12.5 20.0 (>2.5) 12.5 (>2.5) 20.0 (>4.0) 20.0 (>1.0) (>4.0) 12.5 12.5 (>2.5) 12.5
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<4.5) (<4.5) (<4.5) (<4.5) 2.0(<2.6) 2.0(<2.6)
TLMO3100 TLMO3101 TLMY3100 TLMY3102 TLMG3100 TLMG3102 TLMG3105 TLMP3100 TLMP3101 TLMP3107 TLMP3102 TLMB3100 TLMB3101 TLMB3104 TLMB3106 TLMS3100 TLMS3101
PLCC-3, Bi-Color LEDs
TLMEK3100 TLMV3100 Red/Yellow Green/Red 585/635 565/635 (>2.5) (<2.6) (<3.0)
PLCC-3, Power
TLMPG3200 TLMYG3200 Pure Green Yellow/ Green 555-567 577-566 (>25) (>63) (<2.6) (<2.6)
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Selector Guide LEDs
Vishay Semiconductors LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA] [mA] Page
PLCC-3, Standard
TLMK3200 TLMK3201 TLMK3202 TLMK3203 TLMS3200 TLMS3201 TLMS3202 TLMO3200 TLMO3201 TLMO3202 TLMO3203 TLMY3200 TLMY3201 TLMY3202 TLMY3203 Soft Orange Soft Orange Soft Orange Soft Orange Yellow Yellow Yellow Yellow 611-622 611-622 611-622 611-622 626-638 626-638 626-638 600-611 600-611 600-611 600-611 583-594 583-594 583-594 583-594 (>200) 1250 (>160) (>200) 1250 (>200) 1250 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55 1.85-2.55
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Selector Guide LEDs
Vishay Semiconductors
VISHAY
Selector Guides
Ultra-Bright LEDs
Part Number Angle Color Wavelength [nm] [mcd] [mA] [mA] Page
Stand-off, Untinted, Non-Diffused Lens
TLCR5100 TLCY5100
5mmstoff
Yellow Yellow True Green Blue Yellow True Green Blue Yellow True Green Blue
611-622 585-597 585-597 515-535 462-476 611-622 585-597 515-535 462-476 611-622 585-597 515-535 462-476
11000 (>4300) 7500 (>3200) 16000 (>6900) 5000 (>1800) 1500 (>575) 4000 (>1350) 4000 (>1350) 2000 (>750) (>240) 20000 (>7600) 14000 (>5750) 7000 (>2400) 2500 (>750)
(<2.7) (<2.7) (<2.7) (<4.5) (<4.5) (<2.7) (<2.7) (<4.5) (<4.5) (<2.7) (<2.7) (<4.5) (<4.5)
TLCY5101 TLCTG5100 TLCB5100 TLCR5200 TLCY5200 TLCTG5200 TLCB5200 TLCR5800 TLCY5800 TLCTG5800 TLCB5800
Stand-off, White, Waterclear Package
TLCW5100 White 5500 >1000
5mmstoff
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Selector Guide LEDs
Vishay Semiconductors
Selector Guides
Standard LEDs
Part Number Angle Color Wavelength [nm] [mcd] [mA] [mA] Page
Standard, High Efficiency, Tinted, Diffused Lens
TLHR4400 TLHR4401 TLHR4405
tlur44
Soft Orange Yellow Yellow Yellow Green Green Green Pure Green Pure Green Pure Green Yellow Yellow Yellow Green Green Green Blue Blue
611-625 611-625 611-625 598-611 581-594 581-594 581-594 562-575 562-575 562-575 555-565 555-565 555-565 612-625 612-625 612-625 581-594 581-594 581-594 562-575 562-575 562-575
(>1.6) (>2.5) 10.0 (>6.3) (>1.6) (>1.6) (>2.5) 10.0 (>6.3) (>2.5) (>4.0) 12.0 (>6.3) (>0.63) (>1.0) (>1.6) (>1.0) (>1.6) (>2.5) (>0.63) (>1.0) (>2.5) (>1.0) (>1.6) (>4.0) (>6.3)
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
TLHO4400 TLHY4400 TLHY4401 TLHY4405 TLHG4400 TLHG4401 TLHG4405 TLHP4400 TLHP4401 TLHP4405 TLHR4600 TLHR4601 TLHR4605 TLHY4600 TLHY4601 TLHY4605 TLHG4600 TLHG4601 TLHG4605 TLHB4400
tlur44
TLHB4401
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Selector Guide LEDs
Vishay Semiconductors Standard LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA]
VISHAY
[mA]
Page
Standard, High Efficiency, Tinted, Non-Diffused Lens
TLHR4200 TLHR4201 TLHR4205
tlur44
Soft Orange Soft Orange Yellow Yellow Yellow Green Green Green Pure Green Pure Green Blue Blue
612-625 612-625 612-625 598-611 598-611 581-594 581-594 581-594 562-575 562-575 562-575 555-565 555-565 620-628
(>4.0) 10.0 (>6.3) (>10.0) 10.0 (>4.0) (>10) 10.0 (>4.0) (>6.3) 20.0 (>10.0) 10.0 (>6.3) (>10.0) 20.0 (>16.0) (>2.5) 20.0 (>25
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
TLHO4200 TLHO4201 TLHY4200 TLHY4201 TLHY4205 TLHG4200 TLHG4201 TLHG4205 TLHP4200 TLHP4201 TLHB4200 TLHB4201 TLHR4206
Standard, High Efficiency, Untinted, Non-Diffused Lens
TLHR4900 TLHO4900 TLHY4900
tlur44
Soft Orange Yellow Green Pure Green
612-625 598-611 581-594 562-575 555-565
13.0 (>6.3) 26.0 (>10.0) 26.0 (>10.0) 37.0 (>16.0) 13.0 (>4.0)
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
TLHG4900 TLHP4900
Standard, High Intensity, Tinted, Diffused Lens
TLDR4400 TLDR4401 TLHE4400
tlur44
Yellow Yellow Soft Orange
581-594 581-594 598-611
(>25) (>25) 26.0 (>10.0) 26.0 (>10.0) (>16) (>6.3)
(<2.2) (<2.2) (<2.6) (<2.6) (<2.6) (<2.6) (<2.6)
TLHE4600 TLHF4600 TLHK4400 TLHK4600
Standard, High Intensity, Tinted, Non-Diffused Lens
TLHE4200 TLHF4200 TLHK4200
tlur44
Yellow Soft Orange
581-594 598-611
(>40) (>40) (>25)
(<2.6) (<2.6) (<2.6)
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Selector Guide LEDs
Vishay Semiconductors Standard LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA] [mA] Page
Standard, High Intensity, Untinted, Non-Diffused Lens
TLDR4900 TLDR4901 TLHE4900
tlur44
Yellow Soft Orange
581-594 598-611
(>63) (>66) (>66) (>40)
(<2.2) (<2.2) (<2.6) (<2.6) (<2.6)
TLHF4900 TLHK4900
Standard, Current LEDs
TLLR4400 TLLR4401 TLLY4400
tlur44
Yellow Yellow Green Green
612-625 612-625 581-594 581-594 562-575 562-575
(>0.63) (>1.0) (>0.63) (>1.0) (>0.63) (>1.0)
(<2.4) (<2.4) (<2.9) (<2.9) (<2.4) (<2.4)
TLLY4401 TLLG4400 TLLG4401
Standard, Universal Red, Tinted, Diffused Lens
TLUR4400 TLUR4401
tlur44
12.0 (>6.3) 20.0
(<3.0) (<3.0)
Standard, White, Waterclear Package
TLHW4900 TLHW4901
tlur44
White White
5500 5500
(>240)
Stand-off, High Efficiency, Tinted, Diffused Lens
TLHR5400 TLHR5401 TLHR5405
5mmstoff
Yellow Yellow Yellow Green Green Green
612-625 612-625 612-625 581-594 581-594 581-594 562-575 562-575 562-575
(>1.6) (>4.0) 10.0 (>6.3) (>1.6) (>4.0) 10.0 (>6.3) (>1.6) (>4.0) (>6.3)
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
TLHY5400 TLHY5401 TLHY5405 TLHG5400 TLHG5401 TLHG5405
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Selector Guide LEDs
Vishay Semiconductors Standard LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA]
VISHAY
[mA]
Page
Stand-off, High Efficiency, Tinted, Non-Diffused Lens
TLHR5200 TLHR5201 TLHR5205
5mmstoff
Yellow Yellow Yellow Green Green Green
612-625 612-625 612-625 581-594 581-594 581-594 562-575 562-575 562-575
20.0 (>10.0) (>16) (>25) (>10) (>16) (>25) (>16) (>25) (>40)
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
TLHY5200 TLHY5201 TLHY5205 TLHG5200 TLHG5201 TLHG5205
Stand-off, High Efficiency, Tinted, Diffused Lens
TLHB5400 TLHB5401
5mmstoff
Blue Blue
(>6.3)
Stand-off, High Efficiency, Untinted, Non-Diffused Lens
TLHY5800 TLHG5800 TLHP5800
5mmstoff
Yellow Green Pure Green Blue Blue Blue Blue
581-594 562-575 555-565
(>100) (>400) (>25) (>66 (>130
(<3.0) (<3.0) (<3.0)
TLHB5100 TLHB5102 TLHB5800 TLHB5802
Stand-off, High Intensity, Tinted, Diffused Lens
TLDR5400 TLHK5400
5mmstoff
(>35) 26.0 (>10.0)
(<2.2) (<2.6)
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Selector Guide LEDs
Vishay Semiconductors Standard LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA] [mA] Page
Stand-off, High Intensity, Untinted, Non-Diffused Lens
TLDR5800 TLHK5100
5mmstoff
Yellow Green Green Green Pure Green Pure Green Pure Green Yellow Soft Orange
626-639 581-594 562-575 562-575 562-575 555-565 555-565 555-565 581-594 598-611
2500 (>1000) >320 >750 >240 3500 (>1000) 3500 (>1000) 2500 (>1000)
(<2.2) (<2.6) (<2.6) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<2.6) (<2.6) 2.6)
TLHE5100 TLHG5100 TLHG5101 TLHG5102 TLHP5100 TLHP5101 TLHP5102 TLHE5800 TLHF5800 TLHK5800
Stand-off, High Intensity, Tinted, Diffused Lens
TLHE5400 TLHF5400
5mmstoff
Yellow Soft Orange
581-594 598-611
(>16) (>16)
(<2.6) (<2.6)
Stand-off, Current LEDs
TLLR5400 TLLR5401 TLLY5400
5mmstoff
Yellow Yellow Green Green
612-625 612-625 581-594 581-594 562-575 562-575
(>0.63) (>1.0) (>0.63) (>1.0) (>0.63) (>1.0)
(<2.4) (<2.4) (<2.9) (<2.9) (<2.4) (<2.4)
TLLY5401 TLLG5400 TLLG5401
Stand-off, Universal Red, Tinted, Diffused Lens
TLUR5400 TLUR5401
5mmstoff
(>4)
(<3.0) (<3.0)
Stand-off, White, Waterclear Package
TLHW5100 TLHW5400
5mmstoff
White White
5500 5500
1000 (>320) (>130)
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Selector Guide LEDs
Vishay Semiconductors Standard LEDs (continued)
Part Number Angle Color Wavelength [nm] [mcd] [mA]
VISHAY
[mA]
Page
Standard, High Efficiency, Tinted, Diffused Lens
TLHR6400 TLHR6401 TLHR6405
5mmwostoff
Yellow Yellow Yellow Green Green Green
612-625 612-625 612-625 581-594 581-594 581-594 562-575 562-575 562-575
(>1.6) (>4.0) 10.0 (>6.3) (>1.6) (>4.0) 10.0 (>6.3) (>1.6) (>4.0) (>6.3)
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
TLHY6400 TLHY6401 TLHY6405 TLHG6400 TLHG6401 TLHG6405
Standard, High Efficiency, Tinted, Non-Diffused Lens
TLHR6200 TLHR6201 TLHR6205
5mmwostoff
Yellow Yellow Yellow Green Green Green
612-625 612-625 612-625 581-594 581-594 581-594 562-575 562-575 562-575
20.0 (>10.0) (>16) (>25) (>10) (>16) (>25) (>16) (>25) (>40)
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
TLHY6200 TLHY6201 TLHY6205 TLHG6200 TLHG6201 TLHG6205
Standard, Universal Red, Tinted, Diffused Lens
TLUR6400 TLUR6401 (>4) (<3.0) (<3.0)
5mmwostoff
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Selector Guide LEDs
Vishay Semiconductors
Selector Guides
Resistor LEDs
Part Number Angle Color Wavelength [nm] [mcd] [mA] Page
Standard, Tinted, Diffused Lens
TLRP4400 TLRP4401 TLRP4406
tlur44
Pure Green Pure Green Pure Green Soft Orange Yellow Green Soft Orange Yellow Green
555-565 555-565 555-565 612-625 598-611 581-594 562-575 612-625 598-611 581-594 562-575
(>0.63) (>1.6) (>1.6) 10.0 (>4.0) (>1.6) (>1.6) (>1.6) 10.0 (>4.0) (>1.6) (>1.6)
TLRH4400 TLRO4400 TLRY4400 TLRG4400 TLRH4420 TLRO4420 TLRY4420 TLRG4420
Standard, Tinted, Non-Diffused Lens
TLRE4200 TLRE4406 TLRY4220
tlur44
Yellow Yellow Yellow
581-594 581-594 581-594
Standard, Untinted, Non-Diffused Lens
TLRP4900 Pure Green 555-565 (>4)
tlur44
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Selector Guide LEDs
Vishay Semiconductors
VISHAY
Selector Guides
Backlighting LEDs
Part Number Angle Color Wavelength [nm] [mlm] [mA] [mA] Page
V-Lens, Tinted, Non-Diffused Lens
TLVH4200 TLVH4201 TLVS4200 TLVY4200 TLVG4200 TLVP4200 TLVB4200 TLVD4200 Soft Orange Yellow Green Pure Green Blue 612-625 612-625 598-611 581-594 562-575 555-565 (>10) (>10) 20.0 (>10.0) (>10) 10.0 (>4.0) (>40) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<2.2)
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Selector Guide LEDs
Vishay Semiconductors
Selector Guides
TELUX (TM) LEDs
Part Number Angle Color Wavelength [nm] [mlm] [mA] [mA] Page
Lens, High power dissipation, Clear plastic,
TLWR7600 TLWY7600 TLWO7600 TLWTG7600 TLWBG7600 TLWB7600 TLWW7600 TLWR7601 TLWR8600 TLWY8600 TLWTG8600 TLWBG8600 TLWB8600 TLWW8600 TLWR9600 TLWR9620 TLWR9621 TLWR9622 TLWW9600 TLWR7900 Yellow Soft Orange True Green Blue Green Blue White Yellow True Green Blue Green Blue White White 611-634 585-597 598-611 509-529 492-510 462-476 5500 611-634 611-634 585-597 509-529 492-510 462-476 5500 611-634 611-634 611-634 611-634 5500 611-634 1500 3000 1000 2400 1500 3000 1800 1250 1250 1500 3600 3000 (>2000) 3000 (>2000) 2000 (>1000) 1300 (>630) (>320) 1000 (>630) 3200 (>2500) 3700 (>3000) 4200 (>3500) 5000 (>4000) 2200 (>1500) 1500 3000 1.8-2.7 1.8-2.7 1.8-2.7 4.7) 4.7) 4.7) 5.1) 1.8-2.7 1.8-2.7 1.8-2.7 5.0) 5.0) 5.0) 5.2) 1.8-2.7 1.8-2.7 1.8-2.7 1.8-2.7 5.2) 1.8-2.7
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Selector Guide LEDs
Vishay Semiconductors TELUX (TM) LEDs (continued)
Part Number Angle TLWO7900 TLWY7900 TLWTG7900 TLWBG7900 TLWB7900 TLWW7900 TLWR7901 TLWR8900 TLWY8900 TLWTG8900 TLWBG8900 TLWB8900 TLWR8901 TLWW8900 TLWR9900 TLWR9901 TLWR9920 TLWR9921 TLWR9922 TLWW9900 TLWR9000 Soft Orange Yellow True Green Blue Green Blue White Yellow True Green Blue Green Blue White White Color Wavelength [nm] 598-611 585-597 509-529 492-510 462-476 5500 611-634 611-634 585-597 509-529 492-510 462-476 611-634 5500 611-634 611-634 611-634 611-634 611-634 5500 611-634 [mlm] 1500 3000 1000 2400 1800 1250 1250 1500 4200 3000 (>2000) 3000 (>2000) 2000 (>1000) 1300 (>630) (>320) 4800 1000 (>630) 3200 (>2500) 3200 (>2500) 3700 (>3000) 4200 (>3500) 5000 (>4000) 2200 (>1500) 3200 (>2500) [mA] 1.8-2.7 1.8-2.7 4.7) 4.7) 4.7) 5.1) 1.8-2.7 2.7) 1.8-2.7 5.0) 5.0) 5.0) 2.7) 5.2) 1.8-2.7 1.8-2.7 1.8-2.7 1.8-2.7 1.8-2.7 5.2) 1.8-2.7
VISHAY
[mA]
Page
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Selector Guide LEDs
Vishay Semiconductors
Selector Guides
Special LEDs
Part Number Angle Color Wavelength [nm] [mcd] [mA] [mA] Page
3-pin, Bi-Color LEDs
TLUV5300 Green/ 612-625/ 552-575 (>1.0) 3.0/
bpv11
with Lens, Standard, Mini-Plast
TLUR2400 TLUR2401 TLUO2400 TLUO2401 TLUY2400 TLUY2401 TLUG2400 TLUG2401 Yellow Yellow Green Green 612-625 612-625 581-594 581-594 562-575 562-575 (>4.0) (>4.0) (>1.6) (>4.0) (>1.0) 12.5 (>1.6) 20.0 (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
Side View with Lens, Side-View LEDs
TLPR5600 TLPH5600 TLPY5600
tlp56
Yellow Green Pure Green
612-625 581-594 562-575 555-565
(>1.0) (>0.63) (>0.63) (>0.63) (>0.63)
(<3.0) (<3.0) (<3.0) (<3.0) (<3.0)
TLPG5600 TLPP5600
3-pin Symbol, Bi-Color LEDs
TLSV5100 Green/ 562-575/ 612-625 (>0.63) 2.4/
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Vishay Semiconductors
VISHAY
Selector Guides
Blinking LEDs
Part Number Angle Color Wavelength [nm] [mcd] Flashfreque [Hz] [mA] Page
Stand-off, Blinking LEDs
TLBR5410 (>1.0) (10-30)
5mmstoff
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Selector Guide Segment Displays
Vishay Semiconductors
Selector Guides
Single Digit Displays
Part Number Color Wavelength Circuitry [µcd] [mA] [mA] Page
Common Anode
TDSO1150 TDSY1150 TDSG1150 TDSL1150 TDSR0750 Yellow Green current orange current 612-625 581-594 562-575 612-625 Comm. Anode Comm. Anode Comm. Anode Comm. Anode Comm. Anode >450 >450 >450 >180 >180 (<3.0) (<3.0) (<3.0) (<2.4) (<2.4)
Common Cathode
TDSO1160 TDSG1160 TDSL1160 TDSR0760 Green current orange current 612-625 562-575 612-625 Comm. Cathode Comm. Cathode Comm. Cathode Comm. Cathode >450 >450 >180 >180 (<3.0) (<3.0) (<2.4) (<2.4)
Common Anode
TDSO3150 TDSY3150 TDSG3150 TDSL3150 TDSR1050 Yellow Green current 612-625 581-594 562-575 612-625 Comm. Anode Comm. Anode Comm. Anode Comm. Anode Comm. Anode >450 >450 >450 >180 >280 (<3.0) (<3.0) (<3.0) (<2.4) (<2.4)
Common Cathode
TDSO3160 TDSY3160 TDSG3160 TDSL3160 TDSR1060 Yellow Green current 612-625 581-594 562-575 612-625 Comm. Cathode Comm. Cathode Comm. Cathode Comm. Cathode Comm. Cathode >450 >450 >450 >180 >280 (<3.0) (<3.0) (<3.0) (<2.4) (<2.4)
Common Anode
TDSO5150 TDSY5150 TDSG5150 TDSL5150 TDSR1350 Yellow Green current 612-625 581-594 562-575 612-625 Comm. Anode Comm. Anode Comm. Anode Comm. Anode Comm. Anode >700 >700 >700 >280 >280 (<3.0) (<3.0) (<3.0) (<2.4) (<2.4)
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Selector Guide Segment Displays
Vishay Semiconductors Single Digit Displays (continued)
Part Number Color Wavelength Circuitry [µcd] [mA]
VISHAY
[mA]
Page
Common Cathode
TDSO5160 TDSY5160 TDSG5160 TDSL5160 TDSR1360 Yellow Green current 612-625 581-594 562-575 612-625 Comm. Cathode Comm. Cathode Comm. Cathode Comm. Cathode Comm. Cathode >700 >700 >700 >280 >280 (<3.0) (<3.0) (<3.0) (<2.4) (<2.4)
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Selector Guide Segment Displays
Vishay Semiconductors
Selector Guides
Multi Digit Displays
Part Number Color Wavelength Circuitry [mcd] [mA] [mA] Page
Clock, Common Anode Multiplex
TDCG1050m TDCR1050m TDCY1050m Green Yellow 562-575 Comm. Anode Comm. Anode Comm. Anode >2.80 >4.0 >4.0 (<2.4) (<2.4) (<2.4)
Clock, Common Cathode Multiplex
TDCG1060m TDCR1060m TDCY1060m Green Yellow 562-575 Comm Cathode Comm Cathode Comm Cathode >2.80 >4.0 >4.0 (<2.4) (<2.4) (<2.4)
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Selector Guide Segment Displays
Vishay Semiconductors
VISHAY
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Selector Guides
General Information
LEDs Datasheets
Displays Datasheets
VISHAY
Vishay Semiconductors
General Information
Explanation Technical Data
Vishay light emitting diodes displays generally designated accordance with Vishay designation system: Light emitting diode Display following figures show components identified.
Type Designation Code LEDs
Packing Options please refer chapter Packing Order Information
Series
Blink Ultrabright Double hetero High efficiency current Mini StarLED Side view Resistor Symbol Universal Backlighting TELUX
Package Design
Star 0603 PLCC-2/3/4 (stand-off) (stand-off) (stand-off) (without stand-off) 7/8/9 TELUX
00.99 Selection Type
K,D,R,H T,L,S Y,E,A G,C,YG P,PG
Wavelength 612.650 598.611 581.594 565.575 555.567 0.33, 0.33
Color Orange Yellow Green Pure Green True Green Blue Green Blue Bi-Color White
Example: TLME3100 GS08 SMD, yellow, Blister tape, 1500
18985
Document Number: 80102 Rev. 1.2, 05-Jul-04
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Vishay Semiconductors
Series Character Size
11,07 31,10 51,13
Pinning
common anode common cathode
Single digit Clock module
Color
R,L,O Red, 620.660 Yellow, Green,
Selection Type
Example: TDSG5160 Display single digit green, common cathode
18986
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Symbols Terminology Alphabetically
Anode, anode terminal Radiant sensitive area That area which radiant sensitive specified range. Acceptable Quality Level Capacitance Cathode, cathode terminal Celsius Unit Celsius temperature scale; Symbols: Candela unit luminous intensity Junction capacitance Capacitance PN-junction diode. decreases with increasing reverse voltage. Illuminance, illumination specific point surface).Quotient luminous flux incident element surface containing point, divided area that element. Unit: (Lux) Frequency Unit: (Hertz) Continuous forward current current flowing through diode direction lower resistance. Average (mean) forward current Peak forward current Surge forward current Reverse current, leakage current Current which flows when reverse bias applied semiconductor junction. Luminous intensity source given direction). Quotient luminous flux leaving source propagated element solid angle containing given direction element solid angle. Unit: (candela), lm/sr Ivav Luminous intensity, average Kelvin unit absolute temperature (also called Kelvin temperature); also used temperature changes (formerly Lumen SI-unit luminous flux, Luminance given direction, point surface source receptor, point path beam). Quotient luminous flux leaving, arriving passing through element surface this point. propagated directions defined element solid angle containing given direction, divided product solid angle cone area orthogonal projection element surface plane perpendicular given direction. Unit: cd/m2 SI-unit illumination, Luminous exitance specific point surface). Quotient luminous flux leaving element surface containing point, divided area that element. Unit: lm/m2 Total power dissipation Power dissipation, general Quantity light Product luminous flux duration
IFAV IFSM
Ptot
RthJA RthJC
Unit: (lumen-second) Thermal resistance, junction-ambient Thermal resistance, junction case Steradian SI-unit solid angle
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Period (duration) Temperature 273.16 Unit: (Kelvin), (Celsius) Time Ambient temperature self-heating significant: Temperature surrounding below device, under conditions thermal equilibrium. self-heating insignificant: temperature intermediate surroundings device. Ambient temperature range absolute maximum rating: maximum permissible ambient temperature range. Temperature coefficient ratio relative change electrical quantity change temperature which causes under otherwise constant operating conditions. Case temperature temperature measured specified point case semiconductor device. Unless otherwise stated, this temperature given temperature mounting base devices with metal can. Delay time Fall time Junction temperature spatial mean value temperature during operation. Turn-off time Turn-on time Pulse duration Rise time Storage time Soldering temperature Maximum temperature allowed soldering specified distance from case duration. Storage temperature range temperature range which device stored transported without applied voltage. Breakdown voltage Reverse voltage which small increase voltage results sharp rise reverse current. given technical data sheet specified current. voltage across diode terminals which results from flow current forward direction. Reverse voltage Voltage drop which results from flow reverse current. Supply voltage plane angle through which emitter rotated both directions away from optical axis, before electrical output linear detector facing emitter falls half maximum value.
Tamb
Tamb
Angle
Tcase
9511389
Figure Angle half intensity
toff
Tstg
V(BR)
Wavelength wavelength electromagnetic radiation Range spectral bandwidth range wavelengths where spectral sensitivity spectral emission remains within maximum value. Dominant wavelength dominant wavelength color stimulus wavelength monochromatic stimulus that, when additively mixed suitable proportions with achromatic stimulus, yields color which matches color stimulus question. Peak wavelength Wavelength peak sensitivity emission Spectral half bandwidth
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wavelength interval within which spectral sensitivity spectral emission falls half peak value. Luminous flux Quantity derived from radiant power evaluating radiation according effect upon selective receptor, spectral sensitivity which defined standard spectral luminous efficiencies. center sphere with radius that cone intersects with surface sphere, then size surface area sphere subtending cone measure solid angle There complete sphere. cone with angle half sensitivity forms solid angle (1-cos sin2 Unit: (Steradian)
Unit: (lumen) Solid angle space enclosed rays which emerge from single point lead points closed curve. assumed that apex cone formed this
65.5°
1.0sr
20.5°
0.01sr
6.5°
0.1sr
8584
Figure Solid angle
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Data Sheet Construction
Data sheet information generally presented following sequence: Description Features Applications Absolute maximum ratings Optical electrical characteristics Typical characteristics (diagrams) Dimensions (mechanical data) Additional information device performance provided necessary. This because imposes limit application range device. thermal resistance junction ambient (RthJA) quoted that which would measured without artificial cooling, i.e., under worst-case conditions. Temperature coefficients, other hand, listed together with associated parameters under `Optical Electrical Characteristics'.
Optical Electrical Characteristics
most important operational optical electrical characteristics (minimum, typical maximum values) grouped under this heading, together with associated test conditions supplemented with graphs.
Description
following information provided: Type number, semiconductor materials used, sequence zones, technology used, device type and, necessary, construction. Also, short-form information typical applications special features given.
Typical Characteristics (Diagrams)
Besides static (DC) dynamic (AC) characteristics, family curves given specified operating conditions. Here, typical independence individual characteristics shown.
Absolute Maximum Ratings
These define maximum permissible operational environmental conditions. these conditions exceeded, this could result destruction device. Unless otherwise specified, ambient temperature assumed absolute maximum ratings. Most absolute ratings static characteristics; they measured pulse method, associated measurement conditions stated. Maximum ratings absolute (i.e., interdependent). equipment incorporating semiconductor devices must designed that even under most unfavorable operating conditions, specified maximum ratings devices used never exceeded. These ratings could exceeded because changes supply voltage, properties other components used this equipment, control settings, load conditions, drive level, environmental conditions properties devices themselves (i.e., ageing). Some thermal data given under heading `Absolute Maximum Ratings' (e.g., junction temperature, storage temperature range, total power dissipation).
Dimensions (Mechanical Data)
this section, important dimensions connection sequences given, supplemented circuit diagram. Case outline drawings carry DIN-, JEDEC commercial designations. Information angle sensitivity intensity weight completes list mechanical data. Note: dimensional information does include tolerances, then following applies: Lead length mounting hole dimensions minimum values. Radiant sensitive emitting area respectively typical, other dimensions maximum. device accessories must ordered separately order number must quoted.
Additional Information
Preliminary specifications This heading indicates that some information given here subject slight changes. developments This heading indicates that device concerned should used equipment under development. device however, available present production.
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Physics Optoelectronic Devices
Light-Emitting Diodes
This section deals with principles characteristics technically most important types visible emitters which formed, without special lateral structures, whole-area emitters. cede silicon carbide semiconducting material blue light emitting diodes. Gallium arsenide direct bandgap 1.42 only important light emitting diodes, also significant substrate material. III-V compounds form mixed crystals with properties between those binary compounds. most important mixed crystal systems pertaining LEDs GaAs-AlAs, GaAs GaP, AlP. bandgap lattice constant Gal-xAlxAs GaAsl-xPx shown figure direct region shown solid line indirect region dashed line. 0.44 (band 1.96 eV), Gal-xAlxAs direct, lattice constant changes only slightly over whole mixture range. highest direct bandgap GaAsl-xPx 1.99 0.45). indirect region GaAs1-xPx, efficiency radiating recombination increased considerably doping with nitrogen (isoelectronic center). This reduces effective bandgap approximately 0.06 (second dashed line). bandgaps required common colors marked figure Whereas emission achieved with Ga0.6Al0.4As GaAs0.6P0.4 (both direct), indirect GaAsl-xPx:N used other colors. figure bandgaps lattice constants InGaAlP presented. this diagram, binary compounds shown points, ternary compounds lines, quaternary mixed crystal InGaAlP shaded area. binary crystals InP, form apecies. Their characteristic form result complex nature band structure transition from direct indirect region vice versa. diagram shows which InGaAlP compositions direct which mixed crystals lattice matched given substrate material. Both necessary prerequisites manufacture particularly bright light emitting diodes. vertical dashed line drawn through direct bandgap region shows compositions that exactly lattice matched manufactured GaAs substrate. corresponding notation In0.5(GaxAl1-x)0.5P gives ratio amounts atoms crystal lattice. bandgap direct aluminium concentration below 0.7. spectral region from orange yellow green covered variation InGaAlP. Extremely high luminescent effiencies orange yellow obtained double hetero-
Materials LEDs
materials light-emitting diodes visible spectrum (400 semiconductors with bandgaps between with (eV) 1240 (nm). order permit effective recombination, materials should have direct bandto-band transitions permit other recombination paths with high efficiency. Neither these requirements fulfilled well-known semiconductors silicon germanium, their bandgaps small they indirect nature. further requirement, materials have enable manufacturing form monocrystals (volume crystals least epitaxial layers) sufficiently developed technology must available processing. Element combination from groups periodic element system results semiconducting compounds with bandgaps between 0.18 (InSb) approximately (AlN); figure
1.95 2.45 2.26 1.34 VIII
AlAs 2.15 GaAs 1.42 InAs 0.36 AlSb 1.65 GaSb 0.73 InSb 0.18
Figure Periodic system elements III-V compounds
every composition bandgap given Direct semiconductors denoted asterisk. largest direct bandgaps found group nitrides InN. These nitrides super-
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structures InGaAlP situated Bragg reflector GaAs substrate.
p-Diffusion
11428
p-Electrode(Al) Si3N4
yellow orange green AlAs Ga0.56 0.44As
n-GaAs1-x
0.570 GaAs Lattice Constant 0.565
n-GaAs Substrate
0.560 GaAs 0.55P0.45 0.555 GaAs1-xPx:N 0.545 1509
n-Electrode (Au)
0.550
Figure Standard
Bandgap
Figure Bandgaps lattice constants
11463
DH-red element consists three epitaxial layers p-GaAs substrate. active layer with content manufactured between layers Gal-xAlxAs content.
n-Electrode (Au)
Indirect Region Bandgap AlAs AlInGaP Compositions Lattice Matched GaAs GaAs Lattice Constant
Direct Region n-Ga1-x 0.6) p-Ga 0.65 0.35 p-Ga 0.6) p-GaAs Substrate Wavelength
1510
p-Electrode (Au)
Figure DH-red
Figure Bandgaps lattice constants InGaAlP
Technologies
figures below show structures GaAs substrate: figure standard figure DH-red. Standard consists GaAs0.6P0.4 which deposited with GaAs1-xPx buffer layer n-GaAs substrate vaporphase epitaxy. element manufactured planar process with masked diffusion. substrate opaque this case. This means that rear contact provided over complete area.
Other standard LEDs shown figures chips orange yellow similar standard type. large amount 0.85, material deposited with suitable buffer layers transparent substrate, reflective rear contact provided. green element consists entirely therefore manufactured with liquid-phase epitaxy. grown junction divided mesa etching this example enable measurement individual chips wafer. type applications where particularly high brightness required shown figure structure similar that DH-red element. double heterostructure arranged light-absorbing GaAs substrate. combination Bragg reflec-
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between substrate DH-structure window layer DH-structure effect extremely high luminescent efficiency this type LED.
p-Diffusion n-Ga(AsP):N 0.6/0.85 n-GaAs1-x n-GaP Substrate
Anode
Si3N4
Substrate
Backside Metallization Cathode
Figure InGaN straight wall
Anode
1511
AuGe
InGaN
Figure Orange yellow
AuZn
p-GaP:N n-GaP:N
Cathode
Substrate
Backside Metallization
InGaN n-GaP n-GaP Substrate
1513
19007
Figure Mushroom shaped
AuGe
Figure Green
Layer
Organic Binder
p-Electrode(Al) p-Type Window Layer AlInGaP-DH-Structure Reflector n-GaAs Substrate
18990
Substrate
Figure OMA-Chip
Characteristics
most important characteristics LEDs dealt with here summarized table emission LEDs almost monochromatic characterized peak wavelength (column spectral half bandwidth (column lowest spectral half bandwidth generated LEDs with direct band-toband recombination, while other mechanisms material inhomogeneities lead wider emission. Here, evident that efficiency drops wavelength reduced. Liquid-phase elements generally have higher efficiency than comparable vapor-phase elements.
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1512
n-Electrode (Au)
Figure AlInGaP technology
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applications which detector used receiver, example, emitted radiated power important. however, receiver human eye, light flux decisive. Figure shows sensitivity human accordance with 5031. maximum value lm/W Green LEDs close this maximum value, while curve emission drops rapidly. orange (630 nm), example, appears approximately times brighter than (660 same efficiency. times (more than hours) more than sufficient practically applications. rapid current rise forward direction, LEDs always connected series with current limiting element. Figure shows working point with series resistor. supply voltage varies greatly, constant current source used. Digital displays similar devices often operated multiplex mode. seven data lines carry information digits time-staggered manner. Each operated one-quarter time with four times current order achieve same intensity continuous operation. displays with larger numbers LEDs, advisable reduce number driver stages connecting leads. diode characteristics LEDs, large number LEDs operated with only leads circuit designed accordingly.
11580
White
general white light mixture basic colors red, green blue. cost effective solution white light only chip using physical principle luminescence conversion. high brightness InGaN-based chip, mounted reflector covered luminescence converter consisting inorganic phosphor material dissolved Silicon, while whole system embedded transparent epoxy resin. Part blue light absorbed TAG-Phosphor converter emitted longer wavelength. complementary colors blue yellow form white.
1000 acc.DIN 5031 part 565nm lm/W green 650nm lm/W
Forward Current
(lm/W)
Forward Voltage
Figure operating point
11579
Wavelength
Figure Human sensitivity diagram
Electrically, LEDs ordinary diodes (except GaN). most important parameter normal operation forward voltage (Table third column from right) where numerical value corresponds approximately bandgap semiconductor used. speed LEDs characterized their switching times (last columns); LEDs made direct materials fastest, while indirect types considerably slower special recombination mechanism. Generally, LEDs robust their life-
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Color (OMA) Softorange Softorange Yellow Yellow Yellow Green Green Pure Green Pure Green True Green Blue Green Blue Blue White Technology GaAlAs GaAs GaAsP AlInGaP GaAs AlInGaP GaAs AlInGaP AlInGaP GaAs GaAsP AlInGaP GaAs GaAsP AlInGaP GaAs AlInGaP GaAs InGaN InGaN InGaN InGaN/TAG
defined
5500K =0.33 =0.33
0.82 0.20 1.22 0.06 0.78 0.05 1.12 0.05 0.02 0.05 0.55 0.79 1.21 0.96 1.21
1.80 2.00 1.85 1.85 1.90 2.00 1.90 2.00 2.00 2.00 2.00 3.10 3.20 3.60 3.70 3.60
Efficiency* lm/W 10.8 21.6 21.1 21.1
Table Typical technology characteristics *This table gives overview comparision major Vishay technologies. Some datasheets might state minor differences.
Conversion Tables
Radiometry Definition Power Output power unit area Output power unit solid angle Output power unit solid angle unit emitting area Input power unit area Energy Energy unit area Radiant flux (radiant power) Radiant emittance/exitance Radiant intensity Radiance Irradiance Radiant energy Radiant exposure (irradiation) Symbol
Unit Watt, W/m2 W/sr W/m2*sr W/m2 (W*s)/m2
Photometry Symbol Luminous flux (luminous power) Luminous exitance Luminous intensity Luminance Illuminance Luminous energy (quantity light) Light exposure
Unit Lumen,lm lm/m2 candela, cd/m2 lm/m2 Lux, (lm*s)/m2
Table Corresponding radiometric photometric, symbols units Unit cd*m (Apostilb) (stilb) (Lambert) cd*ft-2 (Footlambert) cd*in
10.764 3.426 1550
*104 33.82 10.764 4869
1/*10-4 1.076*10-3 3.426*10-4 0.155
*10-4 10-4 3.382*10-3 1.0764*10-3 0.4869
ft-2 9.29*10 2.957*10-2 2.957*102
0.2919 0.0929 2919 452.4
in-2 6.45*10-4 2.054*10-4 6.452 2.054 6.94*10-3 2.211*10-3
Notes
foot inch
Table Luminance Conversion Units (DIN 5031 part Unit lm*cm-2 (footcandle) 10.764 cm-2 10-4 10.764*10-4 0.0929 Notes instead lm*cm-2, formerly Phot (ph)
Table Illuminance Conversion Units
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standard illuminant mW/cm2 mW/cm2 valid: 634.5 lm/ft2 mW/cm2 lumen/ft2 footcandle candlepower lumen (lm)
v/Ee lx/mW/cm2 2000
11581
1583
S(x,y)
Figure Chromaticity diagram acc. 1931
2200 2400 2600 2800 Color Temperature
Figure EV/Ee (Tf)
3000
11582
Y=V()
Wavelength
Figure Color matching functions acc. 1931
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Measuring Technique
General
production department LEDs displays extensive measuring equipment. This guarantees reliable observation monitoring high internal company standards which reflected specifications quality requirements. Measurement electrical variables such forward voltage breakdown voltage junction capacitance uncritical corresponds usual measurement semiconductor components. addition, optical parameters such luminous intensity dominant wavelength (only orange, yellow green LEDs) etc. must measured LEDs. reproducibility these results guaranteed following measures: result must determined accordance with standard specifications (DIN 747). result must based calibrated standard. criteria mentioned above, demands high measuring speeds have development optoelectronic measuring methods graded measurement strategy these parameters. This explained detail below. following measurement systems used: Series Measurement Each limit value specified Vishay data sheet checked every component production department. Rapid machine measurement with single pulses performed which enables throughput several components second. Here, measuring accuracy depends only systematic errors. Random Sample Measurement Samples components taken during production process accordance with random sample plan. These components measured again means measuring method differing from series measurement. Here, parameters components compared with calibrated standards. series measurement thus checked additionally. Measurement Parameters with Typical Values These parameters generally defined technology used. quality checks during production guarantee observation permissible tolerances. Measurement these parameters performed random samples specially equipped testing laboratory. Calibration Measurements Traceability standards must possible measurement accordance with `Series', `Random Sample' `Measurement Parameters with Typical Values'. Reference components checked regular intervals above measurements calibration laboratory. addition, random samples compared with standards. Components logged certified institutes.
Luminous Intensity
Principle luminous intensity mcd) decisive characterization light-emitting diode display, corresponds most closely application indicating component. defined luminous flux mlm) solid angle unit sr), measured direction mechanical axis with small measuring angle (compared with radiation angle). Basically, luminous intensity determined measuring radiant intensity mW/sr) with suitable detector (figure multiplying measured value with product photometric conversion factor spectral sensitivity factor daylight viewing (see 5031, part (figure (660 with mW/sr, luminous intensity calculated below:
Ie*Km*V() mW/sr*683 W*0.061 mcd.
Luminous Flux
Principle high intensity devices like TELUX, characterization carried measurement luminous flux, wavelength forward voltage. luminous flux measured special test which simulates "Ulbricht" Sphere. test five detectors, optical axis device side. luminous flux measured indirectly after reflection
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wall box. This system wide range only calibrate Ulbricht Sphere. wavelength measured optical axis with spectrometer. optical measurements carried within electrical measurements carried within first
Photo Voltaic Cell with Filter (Calibrated) 0.01 1584 Wavelength V'() level sensitivity High level sensitivity
S()rel Rel. Spectral Sensitivity )rel Rel. Spectral Sensitivity
Figure Relative spectral sensitivity human
Photodiode with filter Humaneye
Position Emitting Area
8156
Figure Radiant intensity measuring configuration
silicon photo diode with special filter used precise measurements wavelength emitted radiation each measured must known precisely this method, spectral bandwidth taken into account. Detectors with filters measurement wideband light sources (daylight, incandescent lamps) suitable their spectral curve deviates above from standard value range (figure detector-filter combination, which slope spectral sensitivity curve matched precisely standarized curve human eye's sensitivity, therefore used LEDs from green (figure blue LEDs measured, more expensive, high precision detector head which matches total response curve used. case standard, customary measuring instruments, built-in photodiode-filter combination calibrated only middle wavelength. measuring error around must expected here spectral range normal LEDs (550 nm). This error avoided computer-controlled measuring systems which separate calibration value each color. Physikalisch Technische Bundesanstalt (German Federal Standards Laboratory) Braunschweig responsible calibration detector masters.
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1585
Wavelength
Figure Correction filter
10.0000 Rel. Spectral Sensitivity Photodiode with filter 1.0000 0.1000 Human 0.0100 0.0010 0.0001
11586
Wavelength
Figure "Red photopic"
Measuring Configuration measuring configuration light-proof box, lined inside with black material (figure which detector arranged axially opposite each other. aperture beam path
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prevents stray light from reaching detector, without limiting angle entry. distance between emitter detector should agreement with 5032) least times large diameter emitter diameter, light-sensitive surface practical applications, measuring solid angle 0.01 (corresponding plane full angle proved suitable, following condition (almost) fulfilled this value: 8.86
8208
20mA constant
calibrated
Filter
detector light-sensitive surface cm2, distance becomes 0.01 10cm
Figure Test circuit with operational amplifier
Special holders required which guarantee precise location components precise reproducible luminous intensity measurement.
Electrometer
1399
Figure Luminous intensity measurement
order determine luminous intensity LED, short-circuit current detector (normally less than measured with electrometer operational amplifier circuit (figure Another method which proved useful connect measuring resistor approximately parallel detector measure voltage drop (less than with highly sensitive digital voltmeter (figure photosensitivity detector filter-combination used calibrated A/lumen, light flux arriving detector calculated from measured short-circuit current: Ik/s. After this, light flux value calculated standard solid angle sr): v/0.01sr. contrast, calibration value specified A/lx, illumination detector surface determined Ik/s. luminous intensity obtained multiplying with square distance 0.01
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Angle Detector Chip without Bond
Optical Axis
1403
9511390
Detector
Figure Configuration with sensitive digital voltmeter
Figure Simplified radiation characteristics
Measuring Angle With small measuring angle such 0.01 even LEDs with very narrow emission angle measured precisely. This means that component's mounting must mechanically precise. further advantage that precise position light emission point uncritical relatively large distance therefore possible measure LEDs with differing case shapes without changing distance. only LEDs with wide radiation angle measured, also possible larger measuring angle such (corresponding plane full angle 20.5 Then, electrical signal detector times larger requirements mechanical precision measuring mounting reduced. Measurements LEDs with non-uniform radiation characteristics therefore easier reproduce, larger measuring angle ensures that individual peaks averaged. case LEDs with narrow emission angle exact measurement axial luminous intensity influenced follows: clearly encapsulated LEDs with aspherical lenses, luminous surface semiconductor chip imaged detector together with non-luminous "bonding spot" center this chip. This causes luminous intensity minimum sensitive area detector. this reason, reliable, reproducible values obtained from measurement LEDs with very narrow measuring angle 0.01 plane angle). reproducibility these readings improved with increasing measuring angle.
Test Angle
Detector Chip with Bond Optical Axis
9511391
Detector
Bond
Figure Radiation characteristics with bond
Test Angle
Detector Chip
Optical Axis
Detector
9511392
Bond
Figure Large test angle
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Chip
11394
Detector
Optical Axis Mechanical Axis Bond
11396
11395
Optical Axis Mechanical Axis
Figure Small detector area
Chip
Figure Deviation between optical mechanical axis
Detector
previous remarks, symmetrical arrangement emission characteristic around mechanical axis assumed. However, emission characteristic frequently asymmetrical practice. addition, should taken into account that reflector into which chip mounted housing imaged concentric ring. relative luminous intensity this ring depends greatly distance between detector only near field mm). mean value luminous intensity within measuring angle indicated. This deviates greatly from axial luminous intensity value measuring angle chosen larger than emission angle. slight devitation chip lead frame frame plastic case leads deviations optical axis (with respect mechanical axis) several degrees case highly focusing lenses. bonding wire middle chip, which connects upper side contact chip with anode terminal LED, responsible small deviations. This leads interferences with measurement. case narrow emission angle, measured values their reproducibility influenced follows: case narrow measuring angle (i.e., small detectors), measured values small large. reproducibility therefore very poor.
Bond
11397
Figure Middle detector area
Chip
Detector
Bond
11398
Figure Large detector area
case medium measuring angle (i.e., detector size), values measurement medium. reproducibility sufficient. case large measuring angle (i.e., detector size), values measurement small (compared with main value). reproducibility good.
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Pulsed Operation currents, luminous intensity LEDs rises faster than forward current (start-up range). Pulsed operation therefore produces increased luminous intensity same average current. higher currents, slope becomes flatter (saturation area). This caused primarily heating chip. This saturation effect therefore less intense pulsed operation than operation. reduction increases pulses become shorter duty cycle becomes longer. luminous intensity under pulsed operation measured either repetitively mean value peak value with single pulses (single shot). series measurements, usual carry measurements LEDs (including luminous intensity) high currents forward voltage with single current pulses order keep measuring times short. LEDs displays used display purposes multiplex operation, pulsed luminous intensity values (specified data sheet) must multiplied duty cycle. This because human "sees" mean luminous intensity value IVAV repetition rate sufficiently high. LEDs used light barriers, pulsed luminous intensity decisive maximum possible range. current range which pulsed operation results gain luminous intensity determined from shape curve relative luminous intensity IVrel. Temperature Behavior luminous intensity light-emitting diodes decreases temperature rises, approximately degree case standard orange-red, approximately degree case yellow, approximately degree case green, whenever measured range around high brightness AlInGaP degree /degree yellow detected, while InGaN very with /degree. This reduction practically undetectable human eye. However, applications light barriers data transmission, necessary compensate this reduced light intensity specific circuits which increase forward current. accuracy luminous intensity measurement influenced temperature behavior LEDs. hand, luminous intensity measured fluctuate result changing room temperature. other hand, "handling" LEDs influence accuracy. order reduce measurement inaccuracies, measurements must performed air-conditioned rooms. components must touched only with tweezers, all. order obtain reproducible results, measuring current must connected until just before measurement carried out. length current pulses measurement must defined always same. This achieved most simply means computer-controlled pulse measurement. case precision measurements, forward voltages also recorded given forward currents. These exact measurement temperature chip. Both radiant intensity emission spectrum temperature-dependent. This means that luminous intensity even more temperature-dependent because depends both these.
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Principle Depending shape lens, light emitted LEDs focused more less halfspace (figure 15). Even slightly reduced angle leads clear increase luminous intensity, namely approximately reduction angle half0.4
intensity medium-angle range. this reason, luminous intensity values should compared only together with radiation angles when selecting type.
Optical Axis
11429
Figure Radiation angles with corresponding angles half intensity
Measurement similar fixture luminous intensity measurement used manual measurement radiation angle. Instead rigid, axially arranged mounting measured, externally rotary mounting with angle scale installed. After measurement axial luminous intensity (angle setting mounting turned left right until luminous intensity values drop half this basic value.
angles half intensity then read from angle scale. photo diode array used rapid automatic measurement; this arranged circular shape around measured. Evaluation data then carried with microcomputer.
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Vishay Semiconductors Forward Voltage
Measurement forward voltage measured either with curve tracer statically shown figure constant current source generates specified forward current LED. voltage across component measured with digital voltmeter. separate contacts current voltage avoids measuring errors resulting from contact resistances. Temperature Behavior forward voltage LEDs drops temperature increases, just silicon diodes. temperature coefficient LEDs colors between -1.5 -2.5 mV/degree.
Color
Wavelength Definition order specify color LED, three different wavelength specifications generally used: Peak wavelength maximum point spectral curve Main wavelength main point spectral curve (identical with case symmetrical spectral curve) Dominant wavelength dominant wavelength accordance with 5033 part measure perceived human eye. chromaticity (red) (green) determined using 3-color method. dominant wavelength then graphically determined from chromaticity diagram. this purpose, straight line drawn from white point (achromatic point) through color locus until this line intersects with spectral color curve (curve color saturation). value dominant wavelength read there. Since light emitted LEDs (exception: blue) color saturation almost color locus very close spectral curve. addition, spectral bandwidth i.e., width spectral curve between points, also specified (figure 17).
9511404
Figure Forward voltage measuring
Breakdown Voltage
most LEDs, V(BR) specified reverse current. this case, either extremely high impedance voltmeter used measurement, current consumption calculated added specified current. second measurement step will give correct readings. should noted that measurement breakdown voltage, performed without special care, destroy device being tested. Only precision current source will fast enough deliver constant current into without spikes. Constant voltage sources current limiting mode applicable all. AllnGaP LEDs particular prone breakdown failure. Therefore, compliance voltage current source must limited maximum actual value breakdown voltage little interest, reverse current measurement fixed reverse voltage recommended. other hand, rather difficult stable readings with standard test equipment because reverse current values LEDs normally nanoamp even picoamp range.
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Spectral Measurement with Monochromator monochromator test configuration used precise determination emission spectrum. specified amount light emitted focused through optical system onto inlet window monochromator. part light (which absorbed) arrives calibrated detector, whereby external reflected light must carefully screened. Peak wavelength obtained tuning monochromator until meter indicates maximum value. order determine center dominant wavelengths, total spectral curve must recorded. transmission factor monochromator spectral sensitivity detector constant over spectral range LED, measured values must corrected accordingly. Color Measurement with Filter series measurements orange, yellow green LEDs, dominant wavelength determined means rapid 3-color method. using detector-filter combination, green color contents spectrum measured. blue content these LEDs insignificant does have measured. green color part given luminous intensity measurement with silicon detector-filter combination matched curve. cut-off filter matched color additionally fitted measurement color part. This arrangement permeable only content spectrum. ratio content luminous intensity provides exact easily reproducible values from which dominant wavelength determined computer, with help programmed calibration curves. Measured values, accurate obtained with this method long spectral pattern used calibration largely agrees with that measured objects. Temperature Behavior temperature rises, shifts larger wavelength. shift approximately 0.05 nm/k typical technologies.
V(%)
1402
Figure Spectral bandwidth
)rel Rel. Luminous Intensity
11587
spectrum weighted
Spectrum weighted
Wavelength
Figure spectral curve weighted
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Component Construction
LEDs
basis lead frame with treated surface. chips mounted reflecting tray order increase light output. contacts made cathode side means conductive adhesive anode side gold wire lead frame. plastic case encloses chip area lead frame determines radiation characteristics optical system. special plastic material provides component with high resistance against moisture mechanical effects.
IRED Chip AU-Bond Wire Chip Reflector Reflector
Displays
chips mounted with conductive adhesive lead frame. This frame cast into display housing which, with highly reflective light channels, simultaneously provides external segment configuration. This construction provides display with special characteristics: wide operating temperature range, protection against environmental effects; uniform, bright segment illumination; resistance shock vibration.
AU-Bond Wire Resistor Chip
Plastic Package
Lead Frame Lead Frame
1620
Anode
Cathode
Figure Resistor design
8314
Figure Standard design
Document Number: 80094 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors
Leadframe LED-Chip Bond Wire Reflector Cone filled with clear epoxy Light Channel
White Plastic Case
Leadframe Chip Identification
11621
Display Reflector Case Terminals LED-Chip
9611619
Figure Typical design
Figure Typical display design
Clear epoxy package
Leadframe Cathode terminals Chip Identification
16076
tlmx2
Figure Typical Telux design
Figure Typical Mini design
tlmx1
Figure Typical 0603 design
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Document Number: 80094 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors
Classification Components
Classification LEDs TLM.31./TLM.32./TLM.33./ 30.-series, Mini LEDs TLM.21. TLM.23. TLM.20. 0603 LEDs TLM.11./TLM10.
Light Intensity Color Devices classified light intensity wavelength groups, describing Min./Max. limits alphanumeric code. These groups order codes. group limits include measurement tolerances every packing unit includes group only, unless specified otherwise.
Group Standard Optional Light Intensity [mcd] 1.25 12.5 1000 1250 1600 2000 12.5 1000 1250 1600 2000 2500 3200 Figure Example labelling components packing materials
18993
tlmx2
Standard:
matching factor IVmin IVmax
tlmx31
TLMY3101 Type
Color group
Light intensity group
18992
Figure Example labelling components packing materials
TLMY2100 Type
Color group
Light intensity group
Document Number: 80093 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors
Color Classification LED's MiniLED 0603 Light Intensity Color Devices classified light intensity wavelength groups, describing Min./Max. limits alphanumeric code. These groups order codes. group limits include measurement tolerances every packing unit includes group only, unless specified otherwise.
Group Min. Group Softorange Min. Group Min. Group Bluegreen Min. Max. Blue Dom. wavelength [nm] Max. Truegreen Min. Max. Max. Yellow Max. Min. Green Max. Pure green Min. Max. Dom. wavelength [nm] Group Min. Max. Min. 0.121 0.121 0.171 0.171 0.111 0.111 0.151 0.151 0.111 0.111 0.151 0.151
tlmx31
tlmx1
White Max. 0.071 0.071 0.121 0.121 0.071 0.151 0.111 0.111 0.071 0.071 0.111 0.111 Chromaticity Coordinates acc. 1931 0.2900 0.3025 0.3025 0.3150 0.2900 0.3025 0.3025 0.3150 0.3150 0.3275 0.3275 0.3400 0.3150 0.3275 03275 0.3400 0.3400 0.3525 0.3525 0.3650 0.3400 0.3525 0.3525 0.3650
Dom. wavelength [nm]
0.44 0.42 Coordinates 0.40 0.38 0.36 0.34 0.32 0.30 0.28 0.26 0.24 0.22 0.28 0.29 0.30 0.31 0.32 0.33 0.34 0.35 0.36 0.37
18162
Coordinates
Dom. wavelength [nm]
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Document Number: 80093 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors Classification Displays
Light Intensity Color Devices classified light intensity wavelength groups, describing Min./Max. limits alphanumeric code. These groups order codes. group limits include measurement tolerances every packing unit includes group only, unless specified otherwise. Classification 7-Segment Display Clock Modules
Group Group Min. Yellow
Light Intensity µcd] Min. 1100 1800 2800 4500 7000 Max. 1400 2200 3600 5600 9000 14000 Green Max. Min. Max.
Group
Softorange Min. Max.
Pure green Min. Max.
Dom. wavelength [nm]
TDSY3150 Type
Color group
Dom. wavelength [nm]
Light intensity group 1400
18994
Figure Example labelling components packing materials
Marking Displays
Plant code Company logo date code Display Display Display digit Display colour ype-selection
18987
TDSG1150-L
Document Number: 80093 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors Classification TELUXLuminous Flux Color Devices classified luminous flux wavelength groups, describing Min./Max. limits alphanumeric code. These groups order codes. group limits include measurement tolerances every packing unit includes group only, unless specified otherwise. Luminous Flux Classification Tolerance
Group Luminous Flux [mlm] Min. 1000 1500 2000 2500 3000 3500 4000 5000 6000 7000 8000 Max. 1000 1250 1800 2400 3000 3600 4200 4800 6100 7300 9700 12200 15000
18996 18995
Forward Voltage Classification
Group
Forward Voltage Min. 1.83 1.95 2.07 2.19 2.31 2.43 2.55 Max. 2.07 2.19 2.31 2.43 2.55 2.67 2.79
TLWR7600 Type
Luminous Flux
Color group
Forward Voltage 2.19 2.43
TLWW7600 Type
Luminous Flux 1000
Color group
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Document Number: 80093 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors
Color Classification
Group Min. Group Min. Group Bluegreen Min. Group Min. Max. Blue Dom. wavelength [nm] Max. Truegreen Min. Max. Max. Min. Yellow Max.
Dom. Wavelength [nm]
Softorange Dom. wavelength [nm] Max.
Dom. wavelength [nm]
0.44 0.42 Coordinates 0.40 0.38 0.36 0.34 0.32 0.30 0.28 0.26 0.24 0.22 0.28 0.29 0.30 0.31 0.32 0.33 0.34 0.35 0.36 0.37
19037
Coordinates
Document Number: 80093 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors Classification LEDs
Light Intensity Luminous Flux Color LEDs classified light intensity luminous flux wavelength groups, describing Min./Max. limits alphanumeric code. These groups order codes. group limits include measurement tolerances every packing unit includes group only, unless specified otherwise. Classification LEDs
Group Light Intensity [mcd] Luminous Flux [mlm] 0.16 0.25 0.63 1000 1350 1800 2400 3200 4300 5750 7500 10000 13500 18000 24000 32000 43000 57500 0.32 1.25 12.5 1150 1500 2000 2700 3600 4800 6400 8600 11500 15000 20000 27000 36000 48000 64000 86000 115000
18997
tlur44
5mmstoff
TLCY5100 Type
Color group
Light intensity group 3200 6400
Figure Example labelling components packing materials
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Document Number: 80093 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors
Color Classification LED's
Group Min. Group Bluegreen Min. Group Max. Truegreen Min. Max. Dom. wavelength [nm] Min. 0.280 0.305 0.330 Group Max. 0.325 0.350 0.375 Min. 0.210 0.260 0.310 White Max. 0.340 0.390 0.440 Chromaticity Coordinates acc. 1931 Yellow Max. Min. Green Max. Group Min. Blue Dom. wavelength [nm] Max.
Dom. wavelength [nm]
Softorange Min. Max.
Pure green Min. Max.
Dom. wavelength [nm]
Document Number: 80093 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors
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Document Number: 80093 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors
Packing Order Information
General Information
Vishay offers LEDs Segment Displays with several packing options.
Aluminiumbag
Device Segment Display TELUX Hole Mini 0603 Series TLW. TLM.3. TLM.2. TLM.1. Bulk Tape Blister Tape Tube
Moisture Level Sticker BarCode Sticker Label
Packing options classified terms brightness (standard), color (optional) forward voltage (optional). Reference Parameter Selection Codes chapter "Classification Components label code SEL. Barcode Label Format Type Assembly Location Code Parameter Selection Code Date Code Batch Number Quantity Machine number Drypacks Blister tapes packed anti-humidity aluminium bags prevent products from moisture absorption during transportation storage. Each contains desiccant with moisture indicators. cases moisture absorption, indicators change their color from blue pink. storage recommended prevent parts from moisture absorption. following conditions should preserved boxes available. Storage condition (example Jedec Level Table ,,Assembly Instructions"): max. year: Temperature: Humidity: unlimited: Temperature: Humidity: case moisture absorption device will recover former condition drying under following recommended conditions: hours
Reel
18298
Example:
CAUTION
This contains MOISTURE -SENSITIVE DEVICES
Shelf life sealed months <40°C relative humidity (RH) After this opened devices that will subjected infrared reflow, vapor-phase reflow, equivalent processing (peak package body temp. 220°C) must Mounted within year factory condition 30°C/60%RH Stored <20% Devices require baking before mounting Humidity Indicator Card >20% when read 23°C met. baking required, devices baked for: hours 40°C 5°C/ -0°C <5%RH (dry air/nitrogen) hours 60±5o Cand <5%RH device containers hours 100±5°C suitable reels tubes Seal Date: blank, code label) Note: LEVEL defined JEDEC Standard JESD22-A112
19148
Fold Packing fold standard containment Reel, Tube Bulk. Label Format identical packing options described above. Packing might contain tubes reels with several Parameter Selection Codes. this case label code Fold Packing SEL000. Exception: TELUX fold boxes contain code only. Minimum Order Quantity Packing Options describe smallest physical packing unit. Vishay Sales representatives provide information Minimum Order Quantity type.
Document Number: 80101 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors
Number Components Quantity
Telux Mini 0603 5000 (bulk) 4000 (bulk) 2000 reel reels box) 1000 reel reels box) 1000 ammopack packs box) tube tubes box) GS08: 3000 reel GS08: 1500 reel reels box) GS18: 8000 reel GS08: 3000 reel 5000 4000 10000 5000 5000 2100 3000 7500 8000 3000
2000 ammopack packs box) 10000
Order Codes type designation device extended tape option codes.
Distance between epoxy body tape
Spacing lead frame 2.54 5.08
Ammopack Type Designation Code
18988
Cathode leaves tape first Anode leaves tape first
Figure Taping code
Example:
TLME3100-GS08 TLHE4200-AS21 TLHE4200-AS12Z optional since 1999: TLMS3100-GS18
Missing Components
consecutive components missing followed least components. maximum components reel quantity missing. least empty positions
present start tape enable tape insertion. Tensile strength tape: Pulling force plane tape, rectangular reel: Note: Shipment fan-fold packages standard radial taped devices. Shipments reel packing only possible customer guarantees removal empty reels. According German packaging decree (Verpackungsverordnung) able accept return reels.
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Document Number: 80101 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors Specification Packing Options
Hole (TL. series) Ammopack tape folded concertina arrangement laid cardboard box. components required with cathode before anode (figure start tape should taken from side marked "-". components required with anode before cathode (figure tape should taken from side marked "+".
5mmstoff
tlur44
Reel
52max.
Tape Feed Direction Diodes: cathode before anode (Code12)
Identification Label Group Code Production Code Quantity Vishay
948641
Label
Tape Feed Direction Diodes: anode before cathode (Code21)
Figure Reel dimensions
Tape
Diodes: Anode before Cathode Phototransistors: Emitter before Collector Code Adhesive Tape Identification Label Reel Diodes: Cathode before Anode Phototransistors: Collector before Emitter Code Kraft Paper
948667
Figure Tape direction
Tape 948671
Figure tape
Document Number: 80101 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors Options
Tape Dimensions Standard Packages Available Package Variations: 12Z,
Series TLH.4. TLL.4. TLU.24. TLUR.4. TLD.4. TLV.4. TLSV51. Option 17.3 25.5 22.0 19.3 21.0 20.0 25.5 Preference standard standard
Explanation: cathode leaves first anode leaves first Ammopack
Quantity
948171
Spule Reel (Mat. 1764) 2000
Figure Tape dimensions devices
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Document Number: 80101 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors
Tape Dimensions Standard Packages Available Package Variations: 12Z,
Series TLH.5. TLL.5. TLUR. TLD.5. TLC.5. TLSV51. TLUR6. TLH.6 Option 12.7 25.5 22.0 21.7 20.0 25.5 standard Preference standard
Explanation: cathode leaves first anode leaves first Ammopack
948172
Quantity
Spule Reel (Mat. 1764) 1000
Figure Tape dimensions devices
Document Number: 80101 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors
(TLM3 series) Vishay's LEDs packages available antistatic blister tape accordance with (CO) 564) automatic component insertion. blister tape plastic strip with impressed component cavities, covered tape. Reel Package dimension LEDs, tape option GS08 (=1500 pcs.)
10.0
Adhesive Tape
Identification
13.00 12.75 63.5 60.5
Blister Tape
Label: Vishay Type Group Tape Code Production Code Quantity
14.4 max.
8665
Figure Reel dimensions GS08
Component Cavity
8670
Taping TLM.3.
Anode
Reel Package dimension LEDs, tape option GS18 8000 pcs.) prefered
10.4
Cathode
5.75 5.25
1.85 1.65
Identification 0.25 Label: Vishay Type Group Tape Code Production Code Quantity
13.00 12.75 62.5 60.0
2.05 1.95
8668
Figure Tape dimensions PLCC-2
14.4 max.
18857
Taping TLMD3100
Figure Reel dimensions GS18
Anode Cathode
5.75 5.25
1.85 1.65 2.05 1.95 0.25
Figure Tape dimensions PLCC-2
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Document Number: 80101 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors
Tape Dimensions MiniLEDs
16939
De-reeling direction
8158
empty compartments min. empty compartments
Tape leader
Carrier leader
Carrier trailer
Figure Beginning reel
Document Number: 80101 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors
Reel Dimensions
Missing Devices
+1.5 9.4-
20.2 min. min.
maximum total number components reel missing, excluding missing components beginning reel. maximum three consecutive components missing, provided this followed consecutive components. tape leader least followed carrier tape leader with least empty compartments. tape leader include carrier tape long cover tape connected carrier tape. last component followed carrier tape trailer with least empty compartments sealed with cover tape.
max.
Tape Removal Force
technical drawings according specifications
Reel
Drawing-No.: 9.800-5051.V5-4 Issue:1, 25.07.02
19002
removal force lies between removal speed mm/s. order prevent components from popping blisters, cover tape must pulled angle with regard feed direction.
Order Codes
Example: TLMB3100-GS08
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Document Number: 80101 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors Tape Reel Dimensions TLM.11. 0603
19043
Document Number: 80101 Rev. 1.2, 20-Aug-04
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VISHAY
Vishay Semiconductors
19044
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Document Number: 80101 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors TELUX
Fold
16491
Label Fold Type component Manufacturing plant Selection Code (Bin) Digit code Luminous Flux group Digit code Dominant Wavelength group Digit code Forward Voltage group Date Code year/week Code Friday) Batch Total quantity Company code Note: distance between code character more than 1mm.
www.vishay.com
18999
Document Number: 80101 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors
Example TELUX tube label
16490
code Type component Manufacturing plant Selection code (Bin) Digit1 code Luminous Flux group Digit2 code Dominant Wavelength group Digit3 code Forward Voltage group
Date code Batch Total quantity Company code
Tube with code label
18989
Figure Drawing proportions scaled
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Document Number: 80101 Rev. 1.2, 20-Aug-04
VISHAY
Vishay Semiconductors
Assembly Instructions
General
Optoelectronic semiconductor devices mounted position. Connection wires bent provided bend less than from bottom case. During bending, forces must transmitted from pins case (e.g., spreading pins). device mounted near heat generating components, resultant increase ambient temperature must taken into account.
Soldering Instructions
Protection against overheating essential when device being soldered. recommended, therefore, that connection wires left long possible. time during which specified maximum permissible device junction temperature exceeded soldering process should short possible (one minute maximum). case plastic encapsulated devices, maximum permissible soldering temperature governed maximum permissible heat that applied encapsulant rather than maximum permissible junction temperature. maximum soldering iron solder bath) temperatures given Tab. temperatures above glass transition point, epoxy softens plastically. During soldering, forces must transmitted from pins case (e.g., spreading pins creation mechanical tension during devices insertion, clinching crimping processes
Wave soldering Maximum allowable temperaturesoldering time Soldering temperature from lower time profiles Distance soldering position edge case Maximum allowable soldering time
Iron soldering Iron temperature Distance soldering position from lower edge case
Devices plastic case Devices plastic case TELUX Mini 0603
Table Maximum Soldering Temperatures
Moisture Sensitivity Levels (Jedec Level)
Soak Requirements Floor Life Level Time Unlimited year weeks hours hours hours hours Time Label (TOL) Conditions 696** 192** 96** 72** 72** Standard Time (hours) Conditions +0.5 +0.5 +0.5 Accelerated Equivalent Time (hours) Conditions
Table Jedec Level
Document Number: 80092 Rev. 1.2, 26-May-04
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VISHAY
Vishay Semiconductors
tions where reliability important. There classification this process. Laser soldering This excess heating soldering method. energy absorbed heat device much higher temperature than desired. There classification this process moment. Resistance soldering This soldering method which uses temperature controlled tools (thermodes) making solder joints. There classification this process moment. Warning Devices PLCC-packages sensitive moisture release they subjected infrared reflow similar solder process (e.g. wave soldering). After opening bag, they must stored ambient relative humidity (RH) mounted within required time acc. Jedec Level printed label. Devices require baking before mounting humidity indicator card baking required, devices baked hours devices avoid mechanical stress package leads.
Soldering Methods There several methods solder devices substrate. Some them listed following: Soldering vapor phase Soldering saturated vapor also known condensation soldering. This soldering process used batch system (dual vapor system) continuous single vapor system. Both systems also include preheating assemblies prevent high temperature shock other undesired effects. Reflow soldering heating rate furnace depends absorption coefficients material surfaces ratio component's mass irradiated surface. temperature parts furnace, with mixture radiation convection, cannot determined advance. Temperature measurement performed measuring temperature certain component while beeing transported through furnace. temperatures small components, soldered together with larger ones, rise Influencing parameters internal temperature component follows: Time power Mass component Size component Size printed circuit board Absorption coefficient surfaces Packing density Wavelength spectrum radiation source Ratio radiated convected energy Temperature-time profiles entire process influencing parameters given figure Wave soldering wave soldering, more continuously replenished waves molten solder generated, while substrates soldered moved direction across wave's crest. Temperature-time profiles entire process given figure Iron soldering This process cannot carried controlled way. should considered applica-
Temperature-Time Profiles
Temperature
max.
8625
max.
Lead Temperature
full line typical dotted line process limits
Time
Figure Infrared reflow soldering opto devices (SMD package)
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Document Number: 80092 Rev. 1.2, 26-May-04
VISHAY
Vishay Semiconductors Heat Removal
Temperature
°.260 first wave second wave 2K/s
948626
Lead Temperature
full line typical dotted line process limits
°.130 forced cooling
ca.5
Time
Figure Double wave soldering opto devices (all packages)
keep thermal equilibrium, heat generated semiconductor junction(s) must removed junction returned ambient temperature. case power devices, natural heat conductive path between case surrounding usually adequate this purpose. heat generated junction conveyed case header conduction rather than convection. measure effectiveness heat conduction inner thermal resistance thermal resistance junction case, RthJC, value which governed construction device. heat transfer from case surrounding involves radiation convection conduction, effectiveness transfer being expressed terms RthCA value, i.e., external case ambient thermal resistance. total thermal resistance, junction ambient consequently: RthJA RthJC RthCA total maximum power dissipation, Ptotmax semiconductor device expressed follows: jmax jmax totmax thJA thJC thCA maximum allowable junction temperature highest ambient temperature likely Tamb reached under most unfavorable conditions RthJC thermal resistance, junction case RthJA thermal resistance, junction ambient, specified components. following diagram shows different installation conditions effect thermal resistance RthCA thermal resistance, case ambient. RthCA depends cooling conditions. heat dissipator sink used, RthCA depends thermal contact between case heat sink, heat propagation conditions sink rate which heat transferred surrounding air. further details about thermal management ,,TELUX Application Note". where: Tjmax
Document Number: 80092 Rev. 1.2, 26-May-04
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VISHAY
Vishay Semiconductors
RthJA
From underneath
2.54
8161
Length
Side view
Figure Thermal resistance junction ambient lead length
8163
8162
Figure case assembly board, heatsink (curve figure
From underneath
0.14 isolated
2.54
Figure case wire contacts (curve figure
Cathode
Side view
8164
Figure case assembly board with heatsink (curve figure
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Document Number: 80092 Rev. 1.2, 26-May-04
VISHAY
Vishay Semiconductors Cleaning
Soldered assemblies washable with following solvents: mixture 1.2-trichlorotrifluoroethane, weight 2-propanol (isopropyl alcohol), weight. Commercially available grades (industrial use) should used. Warning: component 1.2-trichlorofluoroethane hazardous environment. Therefore this solvent must used where solvent specified adquate. 2-propanol (isopropyl alcohol). Commercially available grades (industrial use) should used. Demineralized distilled water having resistivity less than corresponding conductivity mS/m. Caution: tetrachlor, acetone, trichloroetylene similar ALLOWED!
Warning
Exceeding ratings (soldering, cleaning short time exceeding railings) could result irreversible changes ratings.
Document Number: 80092 Rev. 1.2, 26-May-04
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Vishay Semiconductors
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Document Number: 80092 Rev. 1.2, 26-May-04
VISHAY
Vishay Semiconductors
Quality Information
Corporate Quality Policy goal exceed quality expectations customers. This commitment starts with management extends through entire organization. achieved through innovation, technical excellence continuous improvement.
18348
Figure VISHAY quality policy
Document Number: 80098 Rev.1.2, 26-May-04
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VISHAY
Vishay Semiconductors VISHAY INTERTECHNOLOGY; INC. ENVIRONMENTAL, HEALTH SAFETY POLICY
VISHAY INTERTECHNOLOGY, INC. committed conducting worldwide operations socially responsible ethical manner protect environment, ensure safety health employees conduct their daily activities environmentally responsible manner. Protection Environment: Conduct business operation manner that protects environmental quality communities which facilities located. Reduce risks involved with storage hazardous materials. company also committed continual improvement environmental performance. Compliance with Environmental, Health Safety Laws Regulations: Comply with relevant environmental, health safety laws regulations every location. Maintain system that provides timely updates regulatory change. Cooperate fully with governmental agencies meeting applicable requirements. Energy, Resource Conservation Pollution Control: Strive minimize energy material consumption design products processes, operation facilities. Promote recycling materials, including hazardous wastes, whenever possible. Minimize generation hazardous non-hazardous wastes facilities prevent eliminate pollution. Manage dispose wastes safely responsibly.
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Document Number: 80098 Rev.1.2, 26-May-04
VISHAY
Vishay Semiconductors
World Class Excellence
2006 2004
1995
1990
19000
9000 EFQM Approach 2000 Measurement Customer Satisfaction Corporate Customer Service Policy 9000 Advanced Supplier partnership Cost quality Empowered Improvement Team
14001 16949
Integrated Management system
Figure VISHAY Quality road
Quality System Quality Program
heart quality process VISHAY worldwide quality program. This program, which been place since early 90's, specifically designed meet rapidly increasing customer quality demands future. Vishay Corporate Quality implements Quality Policy translates requirements throughout worldwide organization. VISHAY Quality defined roadmap with specific targets along way. major target achieve world-class excellence throughout VISHAY worldwide 2006.
VISHAY Corporate Quality
VISHAY Corporate Quality defines implements VISHAY quality policy corporate level. acts harmonize quality systems constituent divisions implement Total Quality Management throughout company worldwide.
Vishay Zero Defect Program Exceeding quality expectations customers Commitment from management through entire organization Newest most effective procedures tools design, manufacturing testing management procedures (eg. SPC, TQM) Continuous decreasing numbers Failure Rate Detailed failure analysis using methodology Continuous improvement quality performance parts technology
Document Number: 80098 Rev.1.2, 26-May-04
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VISHAY
Vishay Semiconductors Quality Goals Methods
goals straightforward: Cus
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