MCD500
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LED波长常识LED波长(单位纳米)R红色620~650 常规红色是指620~630深红色是指640Y黄色585~595 常规黄色是指588~594橘黄色是指586~588波长越高就越偏红G黄绿色570~575 常规没什么变动B 蓝色460~475 常规货是465~470,波长越高就越偏白G 纯绿色500~535 交通灯/草绿色是指500~510常规纯绿色515~535W白色2800K~3500K 色温是暖白,2800K以下的也是暖白4000K~5000K 色温是商业白5000K~6000K~7000K色温是正白7000K~8000K 色温是微偏蓝,8000K以上是冷白常规冷白10000K左右和25000K左右的P紫色380~410 380的是一般是验钞专用常规的是400~410A粉红做粉红色的工艺是跟白光一样的,由蓝光添加荧光粉激发形成LED参数常识表3528 亮度5050 亮度波长电压白灯(常规)4.5~5.5Lm/1400~1600mcd 14~16 Lm/4000~4500mcd 3.0~3.4白灯(高亮)6~7Lm/1800~2500mcd 18~20Lm/5000~6000mcd 3.0~3.4暖白(常规)4.5~5.5Lm/1400~1600mcd 14~16 Lm/4000~4500mcd 3.0~3.4暖白(高亮)6~7Lm/1800~2500mcd 18~20Lm/5000~6000mcd 3.0~3.4红灯(常规)300~400mcd 800~1000mcd 620~630/1.9~2.3红灯(高亮)600~800mcd 1500~2000mcd 620~630/1.9~2.3黄灯(常规)300~400mcd 800~1000mcd 588~592/1.9~2.3黄灯(高亮)600~800mcd 1500~2000mcd 588~592/1.9~2.3蓝灯300~400mcd 800~1000mcd 466~472/3.0~3.4黄绿色灯80~150mcd 一般不做570~575/1.9~2.3绿灯1000~1300mcd 3000~4000mcd 515~525/3.0~3.4橙灯200~300mcd 600~900mcd 603~609/1.9~2.3紫灯40~60mcd 150~200mcd 400~406/3.0~3.4一般我们常规用的照明用白灯都是采用450~470波段的蓝光芯片,加黄绿光荧光粉激发符合得到的白光,通常会采用455到460的芯片去做,这样的灯是做正白最好的。
P8技术参数(1)、LED灯管组成结构示意图结构说明:每个像素点内采用1红1纯绿1纯蓝共1颗LED发光管。
序号分析项目专业分析内容1 配色分析为使配色达到最佳的白平衡效果,配色对LED 发光的亮度有严格要求,其中各种颜色亮度的配色比例为 R:G:B/3:6:1。
2 序号项目中心波长亮度视角晶片厂家1 正红LED 472 nm~474nm 1030mcd~1236 mcd1200/500光磊2 纯绿LED 522 nm~524nm 2200mcd~2650 mcd 1200/500士兰3 纯蓝LED 619 nm~623nm 800mcd~880 mcd 1200/500士兰(2)、显示模组参数及配件No 项目参数 / 规格1.模组名称P8mm户外实像素全彩32点×16点模组2.模组尺寸256mm×128mm3.像素点间距8mm4.单点控制方式4/1扫恒流驱动5.像点构成1红1纯绿1纯兰(1R1G1B)6.驱动IC 聚积50207.灯芯尺寸红色管芯11im反极性绿、蓝采用8*12im(3)、屏体规格说明技术指标参数1、灯管物理点间距:8mm像素形状:椭圆方径 5㎜基色:正红+纯绿+纯蓝发光点颜色:1R1G1B物理密度:15325点/m23、显示屏整屏最佳视距:9~100m最佳视角:水平120度,垂直50度环境温度:存贮: -35℃~ +85℃工作:-25℃~ +65℃相对湿度:10~95%屏体厚度:≤+维护厚度70CM4、供电工作电压:380∨±10%;AC50HZ,三相五线制平均功耗:250~400W/m2最大功耗:700/m25、屏体亮度白平衡亮度:≥7500cd/㎡以上6、控制系统控制主机:联想开天主机或同档次计算机以上操作系统:WIN 98/ 2000/ NT/XP控制方式:同步控制显示卡:DVI显卡编辑卡:PCTV卡7、主要技术参数1)驱动器件:采用LED专用驱动器件2)驱动方式:恒流驱动3)换帧频率:≥480帧/秒4)刷新频率:≥60帧/秒5)灰度/颜色:256级,可显示16.7M颜色6)亮度调节方式:软件调节100级可调7)视频信号:PAL/NTSC、RF、S-Video、RGB、RGBHV、YC、COMPOSITION等8)视频输入/输出方式:八路输入/八路输出9)图像切换:VGA同步同帧10)控制系统采用:非线性编辑卡+DVI显卡+控制卡+光纤传输(可选)11)平均无故障时间:≥10000小时12)寿命:10万小时(实验室);5万小时(常规环境)13)平整度:任意相邻像素间≤0.5mm;模块拼接间隙<1mm ;14)均匀性:像素光强、模块亮度均匀15)电源开关:自动开关5V/60A16)开关电源负荷:5V/40A / 5V/60A17)计算机显示模式:800×600;1024×76818)有效通讯距离:≤超5类线100m(网线传输);多模光纤传输500m内单模光纤20km;19)箱体防水强度:正面IP6520)防护等级:正面IP659、软件LED通用播放软件(MDK)10、控制方式WINXP计算机+控制软件硬件+播放软件及硬件11、播放内容文本文件,WORD文件,所有图片文件(BMP/JPG/GIF/PCX...),所有的动画文件(MPG /MPEG/MPV/MPA/AVI/VCD/SWF/RM/RA/RMJ/ASF...)。
12/27/2002DescriptionThese Precision Optical Performance oval LEDs are specifically designed for Full Color / Video and Passenger Information signs.High efficiency LED materials are used in these lamps:Aluminum Indium Gallium Phosphide (AlInGaP)for red,amber and green, and Indium Gallium Nitride (InGaN) for true green and blue.Designers can select parallel(where the axis of the leads is parallel to the wide axis of the oval radiation pattern) or perpendicular orientation. Designers can also choose between lamps with or without standoffs.Featuresl Smooth, Consistent Spatial Radiation Patterns l High Luminous Output lEmitting Colors :632 nm Ultra Red 625 nm Red 605 nm Orange 590 nm Amber 573 nm Green 525 nm True Green 470 nm Bluel Superior Resistance to Moisture lChoice of Package OptionsBenefitsl Viewing Angle Designed for Wide Field of View Applicationsl Red, True Green, and Blue Radiation Patterns Matched for Full Color Signs lSuperior Outdoor Environmental PerformanceApplicationsl Full Color / Video Sings lVariable Message SignsPassenger Information AdvertisingTime / TemperatureUnity Opto Technology Co., Ltd.OVAL PRECISIONOPTICAL PERFORMANCE LED LAMPs Technical DataPackage DimensionNotes :1. Tolerance is ± 0.25 mm (.010") unless otherwise noted.2. Protruded resin under flange is 1.5 mm (.059") max.3. Lead spacing is measured where the leads emerge from the package.Part Numbering SchemeMVL-6ABCDwhere A = Leadframe Orientation where C = Color Optionand Package Dimension"UROK" = 632 nm Ultra Red "3" = Parallel Leadframe (3.10 X 3.95 mm) "NUOL" = 625 nm Red "5" = Parallel Leadframe ( 4.26 X 5.06 mm ) "UOL" = 625 nm Red "6" = Perpendicular Leadframe (4.70 X 5.70 mm) "TUOL" = 625 nm Red "7" = Parallel Leadframe ( 3.80 X 5.20 mm ) "SO" = 605 nm Orange "8" = Parallel Leadframe ( 4.56 X 5.20 mm ) "UYL" = 590 nm Amber "9" = Perpendicular Leadframe ( 4.60 X 5.60 mm )"TUYL" = 590 nm Amber "UG" = 573 nm Green"HTG / UTG" = 525 mm True Green "HB / UB" = 470 mm Bluewhere B = Package Color where D = Standoff Option "1" = color diffuse "N/A" = Without "2" = diffuse "-S" = With Stopper"3" = Matching Color "4" = Water ClearAbsolute Maximum Ratings at T A =25o C"UROK""UOL""SO""UYL""HTG""UTG""TUOL""HB""UB""TUYL""UG"mA mW mA Vo C oCV3012510050105100-40 to + 100N/A-30 to + 100300 NOTE1-40 to + 100N/A5-20 to + 855-20 to + 805-20 to + 85Storage TempSolder TemperaturePeak Forward Current(1/10 Duty Cycle 100 µs pulse width)Electrostatic Discharge ThresholdDC Forward Current Reverse Voltage (I R =100µA)Operating Temp Range Power Dissipation100030125100260o C for 5 seconds[ 1.5mm ( 0.06 in. ) below seating plane ]Parameter UnitsInGaNInGaN5-20 to + 80-30 to + 100100AlInGaPAlInGaP3070"NUOL"Notes: 1. Product resistance to electrostatic discharge (ESD) is measured by simulating ESD using a rapid avalanche energy test (RAET).The RAET procedures are designed to approximate the maximum ESD ratings shown. Seller gives no other assurances regarding the ability of Products to withstand ESD.MVL-63XXX AlInGaPDevice Selection Guide (Red, Orange, Amber, Green)Leads Lead Package with Frame Package Min.Typ.Color Stand-OffsOrientationDrawing MajorMinorNo A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A YesBInGaNDevice Selection Guide (True Green,Blue)No A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A Yes B No A YesBMVL-631TUYL-S MVL-632TUYL MVL-632TUYL-S Amber diffuse diffuse 400450400450MVL-634UG MVL-634UG-SGreen 573100150Water ClearParallel 110RedWater Clear OrangeWater Clear Amber Water Clearλd(nm)Part Number60300diffuse MVL-632UOL MVL-632UOL-S Red 625150MVL-633UOL Viewing TypicalIntensity Angle Color and Luminous 2θ1/2 (Degrees)Wavelength I F =20mA TypDominant Iv(mcd) at MVL-633UOL-S MVL-634UOL 150300MVL-634UOL-S 150300MVL-634NUOL 150300MVL-633SO Orange 605150300MVL-633SO-S MVL-634SO 150300MVL-634SO-S MVL-634UYL 170350MVL-634UYL-S Amber 590MVL-633UYL 170350MVL-633UYL-S MVL-631TUYL 60MVL-633HTG True Green 525350650MVL-633HTG-S MVL-634HTG 350650MVL-634HTG-S Parallel110GreenWater ClearBlueWater Clear Water ClearWater Clear200MVL-633HB-S MVL-634HB 100200MVL-634HB-S True Green 525250MVL-633HB Blue 470100450MVL-634UB 70140MVL-634UB-SBlue 47070140MVL-634UTG-S MVL-633UTG Water Clear MVL-634NUOL-S BlueMVL-633UB-S MVL-633UB GreenMVL-633UTG-S MVL-634UTG 250450MVL-65XXX AlInGaPDevice Selection Guide (Red, Orange, Amber, Green)LeadsLead Package with Frame Package Min.Typ.Color Stand-OffsOrientationDrawing MajorMinorNo E Yes F No E Yes F No E Yes F No E Yes F No E Yes F No E Yes F No E Yes F No E YesFInGaNDevice Selection Guide (True Green,Blue)No E Yes F No E Yes F No E Yes F No E YesFWater Clear Water Clear MVL-654SO 400MVL-654SO-S MVL-654UOL 400600MVL-654UOL-S 800Water Clear MVL-654UYL 500MVL-654UYL-S Viewing TypicalIntensity Angle Dominant Iv(mcd) at 2θ1/2 (Degrees)Part NumberWavelength I F =20mA Typλd(nm)Color and Luminous 30MVL-653UOL MVL-653UOL-S 400600Red150MVL-654UG 80MVL-654UG-SAmber400MVL-653SO MVL-653SO-S 500700Orange700Water Clear50MVL-653UYL MVL-653UYL-S MVL-653UG-S MVL-653UG 80150Green800MVL-653HTG 7501500MVL-653HTG-S Parallel MVL-653HB 200400BlueMVL-654HTG 750MVL-654HTG-S 1500Water Clear 400Water Clear5030ParallelGreenMVL-654HB 200MVL-654HB-SRed 625Orange 605Amber 590Green 573True Green 525Blue 470MVL-653HB-SMVL-66XXX AlInGaPDevice Selection Guide (Red, Orange, Amber)Leads Lead Package with Frame Package Min.Typ.Color Stand-OffsOrientationDrawing MajorMinorNo G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G YesHInGaNDevice Selection Guide (True Green,Blue)No G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G Yes H No G YesHMVL-664UROK 150300Ultra Red MVL-664UROK-S Red 625MVL-663TUOL-S Water Clear Red 200Perpendicular8040BlueWater ClearWater Clear Water ClearBlueGreenGreen200380MVL-663MB-S MVL-664MB 200380MVL-664MB-SMVL-663MB Blue 470MVL-664TUYL MVL-664TUYL-SMVL-664TUOL MVL-664TUOL-S MVL-663SO MVL-663UYL MVL-664SO-S MVL-663HTG 400800200400800MVL-663SO-S MVL-663TUOL 400800Amber Water ClearMVL-663HB-S MVL-663HB 100250Blue 470250MVL-664HB 100MVL-664HB-S MVL-664HTG 6001200MVL-664HTG-S True Green 525MVL-663HTG-S 6001200MVL-663MTG Dominant Iv(mcd) at 2θ1/2 (Degrees)Part NumberColor and Luminous Viewing TypicalIntensity Angle Wavelength I F =20mA Typλd(nm)40MVL-664UYL-S 400500MVL-664UOL MVL-663UOL MVL-663UOL-S MVL-664UOL-S MVL-664SO 250250MVL-664UYL 300Amber 590400MVL-663TUYL MVL-663UYL-S 300Orange 605MVL-663TUYL-S Water ClearAmber Water Clear 600Water Clear80400Water Clear600800Red Perpendicular500OrangeMVL-663MTG-S MVL-664MTG 7001300MVL-664MTG-S True Green 5257001300MVL-67XXX AlInGaPDevice Selection Guide (Red)LeadsLead Package with Frame Package Min.Typ.Color Stand-OffsOrientationDrawing MajorMinorNo C Yes D No C Yes D No C Yes D No C Yes D No C Yes D No C Yes D No C Yes D No C Yes D No C YesDInGaNDevice Selection Guide (True Green,Blue)No C Yes D No C Yes D No C Yes D No C Yes D No C Yes D No C YesDPart NumberParallelGreen GreenGreen diffuseWater ClearBlue diffuseWater ClearParallel Water Clear Red MVL-674HTG-S 1100250500500MVL-672TUOL-S Red 625250MVL-671TUOL 20025012001200250MVL-674HB-S13001300MVL-671HTG True Green 525600700MVL-671HTG-S Blue 470MVL-671UOL MVL-671UOL-S MVL-673UOL-S MVL-674UOL 250MVL-673UOL Viewing TypicalIntensity Angle Color and Luminous Dominant Iv(mcd) at 2θ1/2 (Degrees)Typλd(nm)Wavelength I F =20mA 100MVL-674HB 100MVL-673HB MVL-673HTG-S Blue Water Clear MVL-673HTG MVL-674HTG 700MVL-671HB MVL-671HB-S 100MVL-673HB-S 3070308030707030800800MVL-674UOL-S MVL-672TUOL MVL-673TUOL MVL-673TUOL-S 500MVL-674TUOL MVL-674TUOL-S MVL-671TUOL-S 500Red diffuse diffuse 500900900Red Water Clear Red diffuseMVL-673UG MVL-673UG-S MVL-674UG MVL-674UG-SGreen 5737070150150MVL-68XXX AlInGaPDevice Selection Guide (Red)LeadsLead Package with Frame Package Min.Typ.Color Stand-OffsOrientationDrawingMajorMinorNo I Yes J No I Yes J No I Yes J No I YesJInGaNDevice Selection Guide (True Green,Blue)No I Yes J No I Yes J No I Yes J No I Yes J No I Yes J No I Yes J No I Yes J No I YesJMVL-683HTG MVL-683HTG-S 3001300MVL-684HTG MVL-684HTG-S True Green 5256506501300100200MVL-682HB-S MVL-681HB-S MVL-682HB MVL-684HB 150300MVL-684HB-SMVL-683HB MVL-683HB-S 150601200MVL-681HTG-S MVL-681HB Blue 47010020030diffuseBlue diffuse diffuseBlue Water ClearGreen diffuse ParallelGreen Water Clear MVL-684UOL 400800MVL-682HTG 6001200MVL-682HTG-S MVL-681HTG 600MVL-684UOL-S400800Red MVL-683UOL-S MVL-683UOL Red diffuse Parallel diffuse60Water Clear30MVL-681UOL Red 625300600MVL-681UOL-S MVL-682UOL 300600MVL-682UOL-S Wavelength I F =20mA Typλd(nm)Dominant Iv(mcd) at 2θ1/2 (Degrees)Part NumberColor and Luminous Viewing TypicalIntensity AngleMVL-69XXX AlInGaPDevice Selection Guide (Red)Leads Lead Package with Frame Package Min.Typ.Color Stand-OffsOrientationDrawing MajorMinorNo K Yes L No K Yes L No K Yes L No K YesLMVL-693TUYL-S MVL-694TUYL MVL-694TUYL-SAmber 590MVL-694TUOL MVL-694TUOL-S MVL-693TUOL-S Red200025502510001000100020002000λd(nm)Wavelength I F =20mA 50Dominant Iv(mcd) at 2θ1/2 (Degrees)TypViewing TypicalIntensity Angle Color and Luminous Part NumberAmberWater ClearPerpendicularWater Clear 1000Red 625MVL-693TUOL 2000MVL-693TUYLElectrical/Optical Characteristics at T A =25o CParameterSymbolMin.Typ.Max.UnitsTest ConditionsTypical Viewing Angle Major/Minor MVL-63XXX 110/60 MVL-65XXX 50/30 MVL-66XXX 80/40 MVL-67XXX 70/30 MVL-68XXX 60/30 MVL-69XXX50/25Peak/Dominant Wavelength MVL-6XXUROK(-S)637/632Peak and Dominant of MVL-6XXNUOL(-S)630/625Wavelength of MVL-6XXUOL(-S)630/625Spectral MVL-6XXTUOL(-S)630/625Distribution at MVL-6XXSO(-S)610/605I F = 20 mAMVL-6XXUYL(-S)592/590 MVL-6XXTUYL(-S)592/590 MVL-6XXUG(-S)575/573 MVL-6XXUTG(-S)523/525 MVL-6XXHTG(-S)523/525 MVL-6XXUB(-S)468/470 MVL-6XXHB(-S)468/470Spectral HalfwidthUltra Red (λd = 632 nm)22Wavelength Width at Red (λd = 625 nm)17Spectral Orange (λd = 605 nm)13Distribution Amber (λd = 590 nm)171/2 Power Point Yellow Green (λd = 573 nm)20at I F = 20mATure Green (λd = 525 nm)40 Blue (λd = 470 nm)26Forward Voltage AlInGaP 1.6 2.1 2.6 InGaN 2.83.54.2Reverse Current AlInGaP100 InGaN "HTG" "HB"100 "UTG" "UB"10I F = 20mA2θ1/2DegreesV FVµAV R = 5Vλp / λdnmÄλ1/2nmI F = 20mAI RR E L A T I V E I N T E N S I T YWAVELENGTH(nm)Figure 1.RELATIVE INTENSITY012345020406080100R a d i a n t L u m i n o u s I n t e n s i t yForward Current I F (mA)FIG.4 RELATIVE LUMINOUS INTENSITYVS. FORWARD CURRENTF o r w a r d C u r r e n t I F (m A )F o r w a r d C u r r e n t I F (m A )Ambient Temperature T A (oC )FIG.3 FORWARD CURRENT VS. AMBIENT TEMPERATUREForward VoltageV F (V)FIG.2 FORWARD CURRENT VS. FORWARD VOLTAGE0102030405060020406080100InGa N AlInGaP10203040501.21.62.02.42.83.23.64.04.4InGaNAlInGaPR e l a t i v e L u m i n o u s I n t e n s i t y0.30.1R e l a t i v e L u m i n o u s I n t e n s i t y0.30.1R e l a t i v e L u m i n o u s In t e n s i t y0.30.100.51400425450475500525550575595620645670695AmberRed OrangeTure GreenGreenBlueR e l a t i v e L u m i n o u s I n t e n s i t y0.30.10.30.1R e l a t i v e L u m i n o u s I n t e n s i t yR e l a t i v e L u m i n o u s I n t e n s i t y0.30.1Unity Oval LEDs Bin TableLuminous IntensityBIN RANGEJ MAX 70MIN41100141199I V (mcd) @ I F =20mA5881115K L M N 225331851593563796S T U282130318434616529223981126230326R 163O P QUnity OVAL LED Bin CodesUnity OVAL LED Bin Codes。
I TRMS =2x 300 A I TAVM =2x 190 A V RRM =800-1800 VV RSM V RRM TypeV DSM V DRM V V Version 1Version 1 900 800MCC 162-08io1MCD 162-08io113001200MCC 162-12io1MCD 162-12io115001400MCC 162-14io1MCD 162-14io117001600MCC 162-16io1MCD 162-16io119001800MCC 162-18io1MCD 162-18io1Data according to IEC 60747 and refer to a single thyristor/diode unless otherwise stated.IXYS reserves the right to change limits, test conditions and dimensionsFeaturesq International standard packageq Direct copper bonded Al 2O 3 -ceramic base plateq Planar passivated chips q Isolation voltage 3600 V~q UL registered, E 72873qKeyed gate/cathode twin pinsApplications q Motor control q Power converterq Heat and temperature control for industrial furnaces and chemical processesq Lighting controlqContactless switchesAdvantagesq Space and weight savings q Simple mountingqImproved temperature and power cyclingqReduced protection circuitsSymbol Test Conditions Maximum RatingsI TRMS , I FRMS T VJ = T VJM300A I TAVM , I FAVM T C = 80°C; 180° sine 190A T C = 85°C; 180° sine 181A I TSM , I FSMT VJ = 45°C;t = 10 ms (50 Hz), sine 6000A V R = 0t = 8.3 ms (60 Hz), sine 6400A T VJ = T VJM t = 10 ms (50 Hz), sine 5250A V R = 0t = 8.3 ms (60 Hz), sine 5600A òi 2dtT VJ = 45°C t = 10 ms (50 Hz), sine 180 000A 2s V R = 0t = 8.3 ms (60 Hz), sine 170 000A 2s T VJ = T VJM t = 10 ms (50 Hz), sine 137 000A 2s V R = 0t = 8.3 ms (60 Hz), sine128 000A 2s(di/dt)crT VJ = T VJM repetitive, I T = 500 A 150A/m sf =50 Hz, t P =200 m s V D = 2/3 V DRM I G = 0.5 A non repetitive, I T = 500 A 500A/m s di G /dt = 0.5 A/m s(dv/dt)cr T VJ = T VJM ;V DR = 2/3 V DRM1000V/m s R GK = ¥; method 1 (linear voltage rise)P GM T VJ = T VJM t P =30 m s 120W I T = I TAVMt P =500 m s60W P GAV 8W V RGM 10V T VJ -40...+125°C T VJM 125°C T stg -40...+125°C V ISOL 50/60 Hz, RMS t = 1 min 3000V~I ISOL £ 1 mAt = 1 s 3600V~M d Mounting torque (M6)2.25-2.75/20-25Nm/lb.in.Terminal connection torque (M6) 4.5-5.5/40-48Nm/lb.in.WeightTypical including screws125gThyristor ModulesThyristor/Diode Modules1236754MCDMCC31542元器件交易网Symbol Test ConditionsCharacteristic ValuesIRRM , I DRM T VJ = T VJM ; V R = V RRM ; V D = V DRM 10mA V T , V F I T , I F = 300 A; T VJ = 25°C1.25V V T0For power-loss calculations only (T VJ = 125°C)0.88V r T 1.15m W V GT V D = 6 V;T VJ = 25°C2.5V T VJ = -40°C 2.6V I GT V D = 6 V;T VJ = 25°C 150mA T VJ = -40°C 200mA V GD T VJ = T VJM ;V D = 2/3 V DRM0.2V I GD 10mA I L T VJ = 25°C; t P = 30 m s; V D = 6 V 300mA I G = 0.5 A; di G /dt = 0.5 A/m s I H T VJ = 25°C; V D = 6 V; R GK = ¥200mA t gd T VJ = 25°C; V D = 1/2 V DRM 2m s I G = 0.5 A; di G /dt = 0.5 A/m st q T VJ = T VJM ; I T = 300 A, t P = 200 m s; -di/dt = 10 A/m s typ.150m s V R = 100 V; dv/dt = 20 V/m s; V D = 2/3 V DRM Q S T VJ = T VJM ; I T , I F = 300 A, -di/dt = 50 A/m s 550m C I RM 235A R thJC per thyristor/diode; DC current 0.155K/W per moduleother values 0.0775K/W R thJK per thyristor/diode; DC current see Fig. 8/90.225K/W per module0.1125K/W d S Creepage distance on surface 12.7mm d A Strike distance through air9.6mm aMaximum allowable acceleration50m/s 2Optional accessories for modulesKeyed gate/cathode twin plugs with wire length = 350 mm, gate = yellow, cathode = red Type ZY 180L (L = Left for pin pair 4/5)UL 758, style 1385,Type ZY 180R (R = right for pin pair 6/7)CSA class 5851, guide 460-1-1Dimensions in mm (1 mm = 0.0394")MCC Version 1MCD Version 1Fig. 1 Gate trigger characteristicsFig. 2 Gate trigger delay timeFig. 3Surge overload currentI TSM , IFSM: Crest value, t: durationFig. 4òi2dt versus time (1-10 ms)Fig. 4a Maximum forward currentat case temperatureFig. 5Power dissipation versus on-state current and ambienttemperature (per thyristor ordiode)Fig. 6Three phase rectifier bridge:Power dissipation versus directoutput current and ambienttemperatureFig. 7Three phase AC-controller:Power dissipation versus RMS output current and ambient temperatureFig. 8Transient thermal impedancejunction to case (per thyristor or diode)Fig. 9Transient thermal impedancejunction to heatsink (per thyristor or diode)R thJC for various conduction angles d: d R thJC (K/W) DC 0.155180°0.167120°0.17660°0.19730°0.227Constants for Z thJC calculation:i R thi (K/W)t i (s)10.00720.00120.01880.0830.1290.2RthJK for various conduction angles d: d R thJK (K/W) DC 0.225180°0.237120°0.24660°0.26730°0.297Constants for Z thJK calculation:i R thi (K/W)t i (s)10.00720.00120.01880.0830.1290.240.071.0。