AA3528中文资料

3528芯片3528芯片指的是一种常见的表面贴装封装的电子元件。

下面是关于3528芯片的一些相关介绍，以及其特点和应用。

3528芯片是贴片封装中尺寸较小的一种，其封装尺寸为3.5mm x 2.8mm。

该封装形式使得3528芯片在电子产品中被广泛使用，如LED照明、数码产品、电子通信设备等领域。

3528芯片具有以下几个特点：1. 尺寸小巧：3528芯片的尺寸相对较小，非常适合需要小型化设计的电子产品。

它的体积小，便于在设备中进行布局，对设备的整体尺寸要求较低。

2. 贴片封装：3528芯片采用表面贴装封装技术，便于在PCB板上焊接和安装。

这种封装方式提高了芯片的可靠性和生产效率。

3. 高亮度：3528芯片采用先进的发光二极管技术，其红、绿、蓝和白光的亮度较高，可以满足一般照明和显示的需求。

4. 节能环保：3528芯片能够更有效地转化电能为光能，相较于传统的照明产品，可以达到更高的能效，能够节省能源和降低碳排放。

5. 长寿命：3528芯片具有较长的使用寿命，其可靠性较高，因此在需要长时间使用的产品中非常适用。

3528芯片在各个领域都有广泛的应用。

以下是一些主要的应用领域：1. LED照明：3528芯片的高亮度和节能特点使得它成为LED 照明产品中常见的选择。

可以用于室内和室外的照明灯具、广告牌、显示屏等。

2. 数码产品：3528芯片可以用于数码相机、手机屏幕、平板电脑等设备的背光。

其小尺寸和高亮度特点使得这些产品在成像质量和显示效果方面得到了很好的改善。

3. 电子通信设备：3528芯片也可以用于各种电子通信设备，包括路由器、调制解调器、无线电设备等。

其小尺寸和高亮度特点使得这些设备在体积和功耗方面都得到了优化。

总之，3528芯片是一种常见的贴片封装电子元件，具有尺寸小巧、贴片封装、高亮度、节能环保和长寿命等特点。

它的应用非常广泛，主要涉及LED照明、数码产品和电子通信设备等领域。

产品规格书Specification3528单晶蓝光贴片3528 Single Chip Blue Color Top LED产品型号/ Part No : WW-BNA30TS-Q1批准审核制定牛焕东陶源杨成琼华宏光电子（深圳）有限公司WAH WANG OPTOELECTRONIC (SHENZHEN)COMPANY LIMITED地址:深圳市宝安区大浪街道华荣路联建科技工业园第五栋Address：Floor Block 5, Lianjian Science ＆Technology lndustrial Park,Crossing of HuaRong Road,Dalang Sub-District, Bao`an, ShenZhen电话：*************Tel**************传真：*************Fax**************S.D.N. / D.N. No. 送货单编号Customer Name客户名称Sample Approval Signature戶客确认签署Date日期■ 产品特性■ Features：PLCC LED dimensions: 3.5(L) x 2.8(W) x 1.9(H) mm　发散视角120°Wide view angle 120　环保防静电胶带包装Available on tape and reel with Anti-electrostatic bag　产品性能稳定可靠Compatible for all SMT Assembly and Lead-Free SolderingRoHS Compliant■ 应用■ Applications：　背光液晶开关和显示Backlight for LCD Switch and Display　装饰照明Decorative Lighting　一般照明General Lighting　汽车内部照明Automotive Interior Lighting　常规使用General Use■ 产品尺寸图■ Package Dimensions：2建议焊盘尺寸■ 注释■ Notes ：1、上图所有尺寸的单位为毫米All dimension units are in millimeters.2、所有外形尺寸公差为 ± 0.25毫米，除非另有说明All dimension tolerances are ± 0.25mm unless otherwise noted.■ 最大绝对额定值■ Absolute Maximum Ratings ：参数Parameter 符号 Symbol 数值 Value单位 Unit 功耗Power dissipation P d 60 mW 连续正向电流I F 20 mA 峰值正向电流 Peak Forward CurrentI FP 50 mA 反向电压 Reverse Voltage V R5V静电放电(HBM)ESD 1000 V 工作温度范围T opr -25 to +85 ℃ 存储温度范围T stg -40 to +100 ℃ 无铅焊接温度T sol260( for 5 sec)℃Recommended Soldering Pads Dimensions Recommended Soldering Pads Dimensions光电参数规格：Electrical Optical Characteristics:WW-BNA30TS-Q1注释Notes:1、发光强度、功耗和光通量的误差为 ± 10％WW maintains a tolerance of ±10% on flux and power measurements.2、波长的误差为 ±1nm;d ±1nm.3、电压的误差为 ± 0.1VA tolerance of ±0.1V on forward voltage measurements参数 Parameter 符号 Symbol最小值 Min.平均值Typ.最大值 Max.单位 Unit测试条件 Test Conditions发光强度I v 400 --- 600 mcd波长 Spectral λd465 --- 475 nm参考光通量 Φv ------- --- lm 正向电压 V F 2.7 --- 3.3 V 视角Viewing Angle 2θ1/2 ---120 --- Deg I F =20mA反向电流 I R --- --- 5 µA V R = 5V■光电特性Typical Optical Characteristics CurvesAmbient Temperature TA(°C)环境温度(℃)R e l a t i v e L u m i n o u s I n t e n s i t y (%)发光强度(%)Forward Current Derating Curve 环境温度与电流的关系曲线图Radiation Diagram发光角度图Spectral Distribution波长曲线图Luminous Intensity vs AmbientTemperature发光强度与温度的关系曲线图F o r w a r d C u r r e n t (m A )电流(m A )Ambient Temperature TA(°C)R e l a t i v e L u m i n o u s I n t e n s i t y (%)光通量（%）Forward Current (mA)电流(mA)Forward Voltage (V)电压(V)F o r w a r d C u r r e n t (m A ) 电流(m A )Forward Current vs Forward Voltage伏安特性曲线Forward Current vs Relative Luminous Intensity电流和光通量的关系■ 产品可靠性检测项目：序號No.实验项目Test Item标准测试方法Standard TestMethod测试条件Test Conditions检测时间和周期Duration不良数/测试数Failure RateIf=20mA1正常工作寿命Steady StateOperating LifeJEITA ED-4701100 103 Ta=25℃1000hrs 0/22 JEITA ED-47012低温贮藏Low TemperatureStorage 200 202Ta=-40℃ 1000hrs 0/22JEITA ED-47013高温贮存High TemperatureStorage 200 201Ta=100℃ 1000hrs 0/22JEITA ED-4701 Ta=60℃4高温高湿贮藏TemperatureHumidity Storage 100 103 RH=90%1000hrs 0/22JEITA ED-4701 0℃ ~ +100℃5 冷热冲击Thermal Shock 300 307 5min~ 15sec ~5min10 cycles 0/22H：+100℃ 30min.高低温循环Temperature Cycle ∫ : +25℃ 5min.6 JEITA ED-4701100 105L：－40℃ 30min100cycles0/22 JEITA ED-47017 烫锡Solder Heat 300 301 Tsld=260℃, 10sec(Max.)2 times 0/22■ 失效产品判定标准：项目Item符号Symbol测试条件Test Condition最小值Min.最大值Max.正向电压Forward VoltageV F I F = 20mA -- *U.S.L×1.1 反向电流Reverse CurrentI R V R = 5V -- *U.S.L×2.0发光强度Luminous IntensityI V I F = 20mA **L.S.L×0.7 --*U.S.L.:超出标准最大值*U.S.L.: Upper Standard Level** L.S.L.:低于标准最低值** L.S.L.: Lower Standard Level■ .■■■ Dimensions of the reel：■ .包装■ Packing：防潮、防静电真空密封包装■ Moisture, anti-static vacuum sealed packages■ 注释■ Note：上图所有尺寸的单位为毫米，公差为 ± 2.0毫米，除非另有说明All dimensions are in mm, tolerance is ± 2.0mm unless otherwise noted.■注意事项：PRECAUTION IN USE1.存储要求:1.1推荐储存环境温度：5℃30℃的（41oF86oF）湿度：相对湿度60％以下1.2防潮袋密封包装储存时间3个月，起始时间以包装标签日期为准，需在包装袋封口良好并无漏气现象，且湿度卡未变为粉红色前提下使用，如超过3个月的LED需按2. 2要求除潮烘烤后才能正常使用。

3528 Size Flash White Color SMD Type LED Part Number : S3528WH-EA2004. 12. 7NiNEX Co., Ltd.Head Quarter/ Factory:#449-12, Mogok-Dong, PyongTaek-Si, Kyongki-Do, KoreaTel: 82-31-660-0800, Fax: 82-31-611-9048Marketing Office#358-1, Korea Exchange Bank Building 5FYatap-Dong, Bundang-Ku, Sungnam-Si, Kyongki-Do, KoreaTel: 82-31-703-2606~7, Fax: 82-31-704-26071. General DescriptionThe document describes the specification of 3528 size, flash white color SMD type LED.Chip LEDs, or SMD type LEDs, are designed for automatic surface mounting process of ordinary electronic equipments. Some major applications include office electronic equipments, telecommunication equipments and household appliances.A generally acceptable driving current for a chip LED is relatively low compared to ordinary lighting devicesand high operation current or voltage may cause a catastrophic failure. All customers are expected to keep the guidance and the cautions described in the document and strongly recommended to consult NiNEX prior to applying the devices for sensitive applications, particularly when exceptional quality and reliability arerequired.1-1.Featuresz Size : 3.5 x 2.8 x 1.8 mm (L×W×H) – SMD(Surface-Mount Device) typez Encapsulating Epoxy Resin : Phosphor dispersed water clear typez Viewing Angle Φ1/2 : 120˚z Color Coordinates: x=0.29~0.35, y=0.26~0.39 according to CIE 1931, at If= 60mAz Color Mixing: AlInGaN based Blue LED Chip and special phosphor were used to convert blue emission to white color.z Electrodes for soldering: Ag plating on Copper1-2.Dimension(unit: mm, tolerance: ± 0.1mm)2. Specification2-1.Absolute Maximum Rating(T a = 25°C)Parameter SymbolMaximumRating Units Power Dissipation P D 240 mW Forward Current I F 60 mA Peak Forward Current*1I F_PEAK 250 mAReverse V oltage V R 5 V Operation Temperature T OP -30 ~ +85 °CStorage Temperature T ST-40 ~ +100 °CSoldering Temperature T SOL Reflow soldering (lead free): 260°C for 5sec. Reflow soldering (lead ): 240°C for 5sec*1: Duty ratio = 1/10, Pulse width = 10ms2-2.Electrical and Optical Characteristics(T a = 25°C) Parameter SymbolTestConditionMinMaxUnits Forward V oltage*1V F I F = 60mA 3.0 3.8 VLuminous Intensity*2I V I F = 60mA 2.5 5.5 cdx I F = 60mA 0.29 0.35Color Coordinate*3y I F = 60mA 0.26 0.39Reverse Current I R V R = 5V 100 µA*1: 0.05V tolerance for the forward voltage may be caused by measurement inaccuracy.*2: 10% tolerance for luminous intensity may be caused by measurement inaccuracy.*3: The measurement tolerance of color coordinate is 0.013. Part Number DescriptionPart Number: S 3528 WH – E A3-1. Device Type:z A: Application Productsz C: LED Chip (Dice)z D: Dot Matrixz I: Illumination Productsz L: Lamp type LEDz P: High Power Package LEDz S: SMD type LED3-2. Package Size: , Package Thickness:(unit: mm)Package Dimension(W × L × T)Conventional Name1608 4 1.6 × 0.8 × 0.4 Chip LED 0.4t1608 6 1.6 × 0.8 × 0.6 Chip LED 0.6t1608 8 1.6 × 0.8 × 0.8 Chip LED 0.8t1612 4 1.6 × 1.25 × 0.4 Bi-Color(2 in 1) 0.4t1612 6 1.6 × 1.25 × 0.6 Bi-Color(2 in 1) 0.6t1612 8 1.6 × 1.25 × 0.8 Bi-Color(2 in 1) 0.8t1615 4 1.6 × 1.5 × 0.4 Full Color(3 in 1) 0.4t1615 6 1.6 × 1.5 × 0.6 Full Color(3 in 1) 0.6t1615 8 1.6 × 1.5 × 0.8 Full Color(3 in 1) 0.8t3528 E 3.5 × 2.8 × 1.8 3528 Package3530 A 3.5 × 3.0 × 1.07 Flash LED4014 6 4.0 × 1.4 × 0.6 Sideview 0.6t4014 8 4.0 × 1.4 × 0.8 Sideview 0.8t4014 1 4.0 × 1.4 × 1.0 Sideview 1.0t5450 E 5.4 × 5.0 × 1.8 5450 Package3-3. Emission Color:z Emission color from 1 chip in 1 packagez Converted color emission from 1 chip in 1 packageDescription WH BW VW YW WW Emission Color White Blue-White Violet-WhiteYellow-WhiteWarm Whitez Multi color emission from multi chip in 1 packageDescription GR BR BG FC 7CColor Green+Red Blue+RedBlue+Green Red+Green+BlueRed+Yellow-Green+Blue3-4. Package Type Information:Description InformationRemarks A Common AnodeMulti Chip Package B Anode & Cathode for each diceMulti Chip Package CCommon CathodeMulti Chip PackageD Diffused Epoxy T Transparent EpoxyY Yellow Phosphor White color application ZInclude in Zener Diode1615, 4014, 3528 PackageDescription RE OR AM YL YG GN BL VL Emission ColorRed Orange Amber Yellow Yellow-GreenGreenBlueViolet4. Sorting Ranks4-1. Chromaticity Coordinates *1(T a =25°C)*21 2 Cx Cy Cx Cy0.29 0.26 0.32 0.305 0.29 0.30 0.32 0.345 0.32 0.345 0.35 0.39 Rank0.32 0.305 0.35 0.35*1: The CIE (1931) standard colorimetric System*2: Measurement Condition: 20ms pulse @ I F=60mA, 0.01sr (CIE.LED_B)Intensity*14-2. Luminouscd,T a=25°C)*2(unit:Rank Min. Typ. Max.A 2.5 3.0 3.5B 3.5 4.0 4.5C 4.5 5.0 5.5*1: 10% tolerance for luminous intensity may be caused by measurement inaccuracy.*2: Measurement Condition: 20ms pulse @ I F=60mAVoltage*14-3. Forward(unit: V, T a=25°C)*2Rank Min. Max.a 3.0 3.2b 3.2 3.4c 3.4 3.6d 3.6 3.8*1: 0.05V tolerance for the forward voltage may be caused by measurement inaccuracy.*2: Measurement Condition: 20ms pulse @ I F=60mAz Each product belongs to a rank for each sorting parameter.z Combination of the ranks composes sorting bins(ex. 1Bc, 2Cc, etc)z Products which belong to the same sorting bin are taped together.z Bin mixing is not allowed within a reel.5. Taping5-1.Carrier Tape*1 Dimensionmm)(unit:Ω Ω5-2.Reel Dimension*1(unit: mm)*1: Material: PS, Conductivity: 104Ω ~ 105Ω6. Packing*1(unit: mm) Packing unit Size (W × L × D)Quantity (ea) Antistatic shielding bag (1 Reel) 220 × 2502,000 Inner carton box (10 Reels) 220 × 220 × 145 20,000Outer carton box (60 Reels) 450 × 300 × 230 120,000 *1: Each reel sealed in an antistatic shielding bag with silica-gelAntistatic shielding bag Inner carton boxOuter carton box Label7. Lot Number DescriptionLot Number: NS3528WHEA-B1BP 4 B 2 - 000z NiNEX Product Number:z Production Year (3 for 2003, 4 for 2004, 5 for 2005):z Production Month and DateMonth Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov DecA B C D E F G H I J K LDate 1 2 3 4 5 6 7 8 9 1011 12 13 14151 2 3 4 5 6 7 8 9 10 A B C D EDate 16 17 18 19 20 212223 242526 27 28 2930F G H I J K L M N O P Q R S Tz Serial No.:8. Soldering8-1.Recommended Soldering Condition*1, *2Reflow Soldering Manual SolderingLead-free*2Lead solder Lead-free *2LeadSolder Pre-heating 140 ~ 160 °C 180~200°C Temperature max. 300°C max.350°C.Pre-heat time 60 ~ 120 sec. 120 sec. Time max. 3 sec. max. 3 sec.Peak temperature max. 240°C max.260°CNo multiple soldering allowed Soldering time max. 5 sec. max. 5 sec.*1: After reflow soldering, rapid cooling should be avoided.*2: N2 reflow is recommended8-2.Recommended Reflow Soldering Profile● Lead Solder ● Lead-free Solder8-3.Recommended Soldering Pattern(Unit : mm)z During the soldering process, keep the minimum clearance between the resin and the soldering point. z Resin should not contact molten solder.z No mechanical distortion or stress allowed after soldering.z During soldering, do not apply any stress to the lead frame, particularly when heated. z A soldering iron with a grounded tip is recommended.An isolator should also be installed where risk of static generation is high.Time (sec.)T e m p e r a t u r e (Time (sec.)T e m p e r a t u r e ( )9. Cautions9-1.Safetyz Customers should comply with the laws and public regulations concerning safety.z Operation temperature or driving current may affect emission color.Please check sorting condition and characteristic diagram to estimate color shift.z Moisture and dust may affect reliability issues.Do not open the shielding bag under humid or dirty environment.z When installing the product in PCB, the device should not contact with other components.z Do not apply force to the LED under high-temperature condition.z Do not apply friction to the LED using hard material.z Avoid exposure to chemicals which may dissolve the LED package and the epoxy.z Use IPA(Isopropyl Alcohol) as a solvent when washing is required.9-2.Static Electricityz These products are sensitive to static electricity.Anti–electrostatic glove or wristband is recommended when handling the LEDs.z A protection device should be installed in the LED driving circuit to eliminate orminimize the surge current effect.z Proper grounding of Products, use of conductive mat, semi-conductive working uniform and shoes, and semi-conductive containers are considered to be effective as countermeasures againststatic electricity and surge.9-3.Storage Conditionz Before opening the anti-static shielding package:LEDs should be kept at 30°C or less and RH 80% or less.Maximum acceptable storage period is 6 months.z After opening the anti-static shielding package:LEDs should be kept at 30°C or less and RH 70% or less.LEDs should be soldered within 7 days after opening the package.10. Characteristic Diagram●Ambient Temperature vs.Forward Voltage●Ambient Temperature vs.Relative Luminosity●Ambient Temperature vs.Allowable Forward Current ● Forward Voltage vs.Forward Current1020304050607080AllowableForwardCurrent(mA)● Forward Current vs.Relative Luminosity●Radiation Diagram●Spectrum●Forward Current vs.Chromaticity CoordinateTa=25IF=60mA0.280.290.300.310.320.330.340.280.290.300.310.320.330.340.350.36xy11. Reliability Test11-1. Test items and resultsTest Item Reference Standard Test ConditionsNumber of Damaged PartsNormal Temperature Lifetime Test MIL-STD-883:1005JIS C 7035T a=25 I f=60mATest Time=1,000hrs0/22High Temperature Operating Life (HTOL) MIL STD 883E-1005EIAJ ED 4701-100T a =85 I f =10mATest Time=1,000hrs0/22Temperature Humidity Bias (THB) EIAJ ED 4701-100T a=60 / RH=90%I f =30mATest Time=500hrs0/22Temperature Cycle MIL-STD-883 :1010EIAJ ED 4701-100-30 ~ 25 ~ 100 ~ 2530min 5min 30min 5minTest Time=50cycles0/22High Temperature Storage MIL-STD-883 : 1008EIAJ ED 4701-200T a=100Test Time=1,000hrs0/22Low Temperature Storage EIAJ ED 4701-200T a=-40Test Time=1,000hrs0/22ESD(Electro-static Discharge) Rating MIL STD-883E : 3015EIAJ ED 4701-300HBM(Human Body Model)C=100pF R =1.5KΩDischarge times : 3 times0/2211-2. Criteria of failure for the reliabilityTest Item Symbol Test Condition Judgment Criteria Forward Voltage V f I f = 60mA V f > 1.1×U.S.L*1 Luminous Intensity I v I f = 60mA I v < 0.7×Initial valueESD Rating*2ESD HBM Class 2 or more*1: U.S.L : Upper Standard Level*2: ESD Rating forward directed by HBM (Human Body Model)Classification*1Class 1 Class 2 Class 3A Class 3B Withstand V oltage 250 - 1,999V 2,000 - 3,999V 4,000 -7,999V 8,000V or more *1: EIAJ ED 4701-300Part Number. S3528WH-EADocument ID NS-120Events S/N Date Summary of Revision Remarks1 2004. 08. 9 Newly Establishment -2 2004. 12. 07 Revise IV Rank & Lot No. -。

东莞市荧月电子科技有限公司3528绿光规格书3528 GREEN SPECIFICATION产品型号 Model NO.:YT-K3528GC版次 REV NO.:V01版文件编号Document NO.:YT-C030002日期 DATE :2015.3.11.外形尺寸D imensions单位(Units):毫米(mm)2.光电特性Electrical / Optical characteristics1/10周期, 0.1 msec脉宽IFP Conditions : 1/10 Duty Cycle, 0.1 msec Pulse Width.Rjs = Heat resistance from Dice to Solder temperature of Cathode Side (Ts) (3) 原始光电参数Initial Electrical/Optical Characteristics (TA=25ºC) Array(4)发光强度范围Luminous Intensity Ranking (TA=25ºC)允许误差± 10%Luminous Intensity Measurement allowance is ± 10%.(5)颜色范围Color Ranking (TA=25ºC)允许误差± 0.01Color Coordinates Measurement allowance is ± 0.01.3. 包装PACKAGING(1)LEDS 在装带之后纸箱包装. The LEDs are packed in cardboard boxes after taping.(2)装带规格Taping Specifications (单位:毫米Units:mm )(3)卷轴尺寸 Reel Dimension装带数量2000个/卷2000Pcs/Reel(3) 最小包装标签注明以下:产品名称.批号.光电范围.数量.The label on the minimum packing unit shows ; Part Number, Lot Number, Ranking, Quantity.(4)请注意防水防潮Keep away from wate r, moisture in order to protect the LEDs.(5) 须采取适当防护措施,以防包装箱跌落或受到强力撞击造成对产品的损伤.The LEDS may be damaged if the boxes are dropped or receive a strong impact against them. so precautions must be taken to prevent any damage.4.可靠性RELIABILITY*) U.S.L.：Upper Standard Level **) L.S.L.：Lower Standard Level5.注意事项Cautions(1) 焊接条件Soldering Conditions本产品最多只可回焊两次,且在首次回焊后须冷却至室温之后方可进行第二次回焊.Number of reflow process shall be less than 2 times and cooling process to normal temperature is required between first and Second soldering process. 推荐焊接条件(Recommended soldering conditions)推荐焊盘式样(Recommended Soldering Pattern ) 单位:毫米( Units:mm )(2)静电 Static Electricity触摸LED 时,推荐使用防静电手腕带或防静电手套.It is recommended that a wrist band or an anti-electrostatic glove be used when handling the LEDs.所有装置、设备、机器均应接地.All devices, equipment and machinery must be properly grounded.静电损坏的LED会显示出异常特征:正向电压变低或在低电流时死灯.标准: I F=0.5mA时, V F > 2.0VDamaged LEDs will show some unusual characteristics such as the forward voltage becomes lower, or the LEDs do not light at the low current. Criteria : (V F > 2.0V at I F=0.5mA)(3)防潮包装Moisture Proof Package使用防潮包装It is recommended that moisture proof package be used .(4)储藏Storage打开包装袋之前,LED在温度为30°C或更低湿度70%RH以下,可保存一年.Before opening the package ,The LEDs should be kept at 30°C or less and 70%RH or less. The LEDs should be used within a year.（5）打开包装之后,应在24hrs 内焊接完毕.After opening the package, The LEDs should be soldered within 24 hours (1days) after opening the package. If unused LEDs remain, they should be stored in moisture proof packages, such as sealed containers with packages of moisture absorbent material (silica gel).下列情况发生时，须要在焊接前重新烘烤60 ± 5°C,24小时以上。

Specification No.: QWE-03TA3528WSPECIFICATIONS FOR SURFACE MOUNT LED表面贴装式 LED 产品规格书ATTENTIONO B SER V E PR EC A U TIO N SELECTROSTATIC SENSITIVE DEVICESCustomer 客户名称 Product Discription 产品描述 Model 型号 Issue Date 发出日期: : : : WHITE TOP LED 3528W 2014-03-21Prepared By 制定 连晓铃Checked By 审核 李海超Approved By 批准 吴常青APPROVED SIGNATURES 客户确认 Purchase Dept. Quality Dept. Engineering Dept. 采购部 品质部 技术部Specification No.: QWE-03TA3528W QWE※ Features (产品特征)1. Outline Package: 3.5×2.7×1.9mm ×1.9mm (Top View White LED) 外型尺寸：3.5×2.7×1.9mm 2. Emitted Color: White 发光颜色：白色 3. Lens Appearance: Yellow Disffuse 胶体颜色：黄色不透明 4. Sutiable for all SMT assembly methods 适用于所有表面贴装技术组装生产 5. Comply with RoHS 完全符合 ROHS 指令※ Appearance (外观图片)※ Applications （产品应用）1. Indoor and outdoor displays 室内室外显示屏 3. Backlighting 背光 5. Substitution ubstitution of micro incandescent lamps 替代微型白炽灯 2. Optical indicators 光学指示 4. Interior nterior automotive lighting 汽车内部照明 6. Signal ignal and symbol luminaire 信号照明※ Package Outline Dimensions 外型尺寸图PAD Lay Out PCB 焊盘设计NOTES:1. All dimensions are in millimeters (inches); 单位：毫米（英寸） 2. Tolerances are ±0.2mm (0.008inch) unless otherwise noted. 未标公差处公差为 0.2mm(0.008 寸)Specification No.: QWE-03TA3528W※Absolute maximum ratings at Ta=25℃ 最大绝对额定值 Parameter Symbol 参数 符号Power dissipation 功率耗损 Forward current 正向电流 Reverse voltage 反向电压 Operating temperature range 工作温度范围 Storage temperature range 贮存温度范围 Peak pulsing current 最大脉冲电流 Electrostatic Discharge 抗静电能力 Pd If Vr Top Tstg Ifp ESDValue 值60 20 5 -20 ~+80 -30~+100 30 2000(HBM)Unit 单位mW mA V ℃ ℃ mA VNOTE: IFP Conditions: Pulse Width≦10msec. and Duty cycle≦1/10. IFP 条件：脉冲持续时间≦10msec，占空因素≦1/10※ Electrical-optical characteristics at Ta=25℃ 电性光电特性 Parameter 参数Forward voltage 正向电压 Luminous Flux 光通量 Reverse current 反向电流 White(正白) Color Temperature CRI 显色指数 Viewing angle at 50% Iv 半功率角Test Condition 测试条件If=20mA If=20mA Vr=5VSymbol 符号Vf φ IrValue 值 Min.-6 --Typ.3.3 ---Max.3.6 7 10Unit 单位V lm mAIf=20mATc6000--6500KIf=20mA If=20mARa 2 θ 1/2--70 120----degNOTE: 1. Tolerance of luminous intensity is ±15% 发光强度公差为±10% 2. Tolerance of forward voltage is ±0.1V 正向电压公差±0.1VSpecification No.: QWE-03TA3528W※ Typical optical characteristics curves 典型光电特性曲线Spectral DistributionRelative Intensity VS. Wavelength (Ta=25℃) Forward Voltage VS. Forward Current (Ta=25℃) Relative Intensity VS. Forward Current (Ta=25℃)Forward Current (mA)Relative IntensityRelative Intensitywavelength (nm)Forward Voltage VF (V)Forward Current (mA)DeratingRelative Intensity VS. Amblient Temperature Amblient Temperature VS. Maxinum Forward Current Dominate Wavelength (nm) Forward Current VS. Chromaticity (Ta=25℃)Amblient Temperature (℃)Forward Current (mA)Relative IntensityAmblient Temperature (℃)Forward Current (mA)Diagram characteristics of radiation40 30 20 10 0 1.0 500.8600.6700.4800.290 0 20 40 60 80 100Specification No.: QWE-03TA3528W※ Reliability Test Items and Conditions 可靠性测试项目及测试条件 No. Test Item 测试项目Resistance to Soldering Heat(Reflow Soldering) 回流焊可承受条件测试 Temperature Cycle 温度循环测试 Thermal Shock 冷热冲击测试 High Temperature Storage 高温贮藏测试 Temperature Humidity Storage 恒温恒湿贮藏测试 Low Temperature Storage 低温贮藏测试 Power On/off Cycle Test IF=20mA 亮暗测试 Life Test 常温寿命测试 High Humidity Heat Life Test 恒温恒湿寿命测试 Low Temperature Life Test 低温寿命测试 Drop 跌落测试Test Conditions 测试条件Note 频次Number of Damaged允许破坏数0/2201Tsld=260℃,10sec -30℃ 30min ↑↓5min 85℃ 30min -30℃ 15min ↑↓ 85℃ 15min Ta=80℃ Ta=85℃ RH=85% Ta=-30℃ On 2 hours ↑↓ Off 10min Ta=25℃ IF=20mA 60℃ RH=85% IF=20mA Ta=-30℃ IF=20mA 75cm2 times02100 cycle0/10003 04 05 06 07 08 09 10 11100 cycle0/1001000 hrs0/1001000 hrs0/1001000 hrs0/100100 cycle0/1001000 hrs 500 hrs 1000 hrs 3 times0/100 0/100 0/100 0/10※ Criteria for Judging the Damage 破坏判定标准 ItemForward Voltage 正向电压 Reverse Current 反向电流 Luminous Intensity 发光强度SymbolVF IR IVTest ConditionsVR=5V IF=20mA IF=20mA.Criteria for Judgement Min._ _ L.S.L**)×0.7Max.U.S.L*)×1.1 U.S.L*)×2.0 _Specification No.: QWE-03TA3528W※ Packaging Specifications 包装规格● Feeding Direction 卷带输送方向 ● Dimensions of Reel (Unit: mm) 卷盘尺寸Feeding Direction● Dimensions of Tape (Unit: mm) 卷带尺寸FEED DIRECTIONPolarity MarkTop Tape● Arrangement of Tape 卷带排列规格NOTES 1. Empty component pockets are sealed with top cover tape; 无材料部分同样用上封带密封 2. The maximum number of missing lamps is two; 一卷材料最大差异数为 2 3. The cathode is oriented towards the tape sprocket hole 材料负极方向与卷带齿孔方向一致 4. 2,000 pcs/ Reel. 2000pcs/卷Specification No.: QWE-03TA3528W※ Precautions for use 使用规范 Reflow Profile 回流焊规范 Pb-free Solder temperature Profile 无铅产品回流焊温度条件曲线规范Note: a)Reflow soldering should not be done more than two times. 材料焊接次数不超过 2 次。

HQ SeriesSPECIFICATIONS STANDARD*SPECIAL ELECTRICALCenter Frequency (Fc)100 to 1000 Mhz80 to 1400 MHz 3dB Relative Bandwidth (% of FC) 4 to 40 4 to 50 Number of Sections Available 3 to 8 2 to 10 Nominal Impedance50 Ohms50 to 75 Ohms Maximum Insertion Loss See Curve See Curve Maximum VSWR 1.5/1 1.3/1 Attenuation in the Stopband See Graph See GraphMaximum Input Power (Average)(Watts to10,000 ft.)500 x 3dB BW (MHz)(Loss Factor)(Fc MHz)See StandardMaximum Input Power (Peak)(Watts to10,000 ft.)300 x 3dB BW (MHz)Fc (MHz)2,000ENVIRONMENTALShock15 G's25 G's Vibration 5 G's10 G's Humidity90% relative100% relativeINSERTION LOSS:The Maximum Insertion Loss at center frequency is equal to :LF x (N + 0.5) / % 3 dB BW + 0.2 Where:LF= Loss Factor, N= Number of Sections% 3dB BW:3dB BW (MHz) x 100divided byCenter Frequency (MHz) Example:A 3 section HQ with a center frequency of 400 MHz and a 3dB BW of 40 MHz would have,1.5 x 3.5 / 10 = 5.25 / 10 = 0.525 0.525 + 0.2 = 0.8 dBConnectors Available on HQ Series:Lark Code Type C DIM.Inches & MMLarkCodeType C DIM.Inches & MMA SMA JACK.800 & 20.3G N JACK 1.625 & 41.3B SMA PLUG.855 & 22.5H N PLUG 1.585 & 40.3C TNC JACK 1.350 & 34.3L SOLDER MPINAXIAL.625 & 15.9D TNC PLUG 1.280 & 32.5*M SOLDER PINRADIAL.625 & 15.9E BNC JACK 1.350 & 34.3S SPECIALF BNC PLUG 1.280 & 32.5*Not recommended for use with this series.LENGTH:The approximate length of a Lark HQ series filter can be determined by the formula:( 0.5 N + 2 / %BW ) x LC = LWhere N is the number of sections used, % BW is:3dB BW (MHz) x 100divided byCENTER FREQUENCY (MHz)LC is the length constant at the specified center frequency, L is the dimension between theconnectors; C1 and C2 are the connector lengths as shown above. All of the length information given here is approximate. Exact length specifications must be quoted by the factory. If a special length is needed,please submit all of your requirements - both electrical and mechanical. This will enable Lark Engineering to quote the optimum design for your application.Example:A 3 section HQ with a center frequency of 400 MHz a 3dB BW of 40 MHz and SMA jack input and output connectors would be:(1.5 + 0.2) x 1.38 = 2.35 + C1 + C2In most cases, the L dimension is rounded to the nearest 1/4 inch which in this instance would be 2.25inches and the O.A.L. is:2.25 + .800 + .800 =3.85 inches.To convert inches to millimeters multiply x 25.40.Lark Engineering HQ SERIES元器件交易网STOPBAND ATTENUATIONThe graph on the following pages defines the normal specification limits on attenuation Lark bandpass filter series HP, HQ, SF, and SM. The minimum level of attenuation in dB is shown as a "number of 3dB bandwidths from center frequency".Since the frequency characteristics vary for differing bandwidths, it is necessary to establishspecifications for each bandwidth of filter. The different graphs represent various 3dB percentage bandwidths. Intermediate values should be interpolated. The 3dB percentage bandwidth is defined asfollows:STOPATT5.HTM元器件交易网As the 3dB bandwidth is exactly 10% of the center frequency, the answer can be read directly from the 10% graph. Using the 5 section curve at the point -1.5 (255 MHz) we find the minimum level of attenuation is 36dB. At +1.6 (348 MHz) the minimum level of attenuation is 48dB.For special requirements, please contact our Application Engineering Department.STOPBAND ATTENUATIONSTOPBAND ATTENUATIONSTOPATT5.HTM元器件交易网STOPBAND ATTENUATIONSTOPBAND ATTENUATIONSTOPBAND ATTENUATION。

HQ SeriesSPECIFICATIONS STANDARD*SPECIAL ELECTRICALCenter Frequency (Fc)100 to 1000 Mhz80 to 1400 MHz 3dB Relative Bandwidth (% of FC) 4 to 40 4 to 50 Number of Sections Available 3 to 8 2 to 10 Nominal Impedance50 Ohms50 to 75 Ohms Maximum Insertion Loss See Curve See Curve Maximum VSWR 1.5/1 1.3/1 Attenuation in the Stopband See Graph See GraphMaximum Input Power (Average)(Watts to10,000 ft.)500 x 3dB BW (MHz)(Loss Factor)(Fc MHz)See StandardMaximum Input Power (Peak)(Watts to10,000 ft.)300 x 3dB BW (MHz)Fc (MHz)2,000ENVIRONMENTALShock15 G's25 G's Vibration 5 G's10 G's Humidity90% relative100% relativeINSERTION LOSS:The Maximum Insertion Loss at center frequency is equal to :LF x (N + 0.5) / % 3 dB BW + 0.2 Where:LF= Loss Factor, N= Number of Sections% 3dB BW:3dB BW (MHz) x 100divided byCenter Frequency (MHz) Example:A 3 section HQ with a center frequency of 400 MHz and a 3dB BW of 40 MHz would have,1.5 x 3.5 / 10 = 5.25 / 10 = 0.525 0.525 + 0.2 = 0.8 dBConnectors Available on HQ Series:Lark Code Type C DIM.Inches & MMLarkCodeType C DIM.Inches & MMA SMA JACK.800 & 20.3G N JACK 1.625 & 41.3B SMA PLUG.855 & 22.5H N PLUG 1.585 & 40.3C TNC JACK 1.350 & 34.3L SOLDER MPINAXIAL.625 & 15.9D TNC PLUG 1.280 & 32.5*M SOLDER PINRADIAL.625 & 15.9E BNC JACK 1.350 & 34.3S SPECIALF BNC PLUG 1.280 & 32.5*Not recommended for use with this series.LENGTH:The approximate length of a Lark HQ series filter can be determined by the formula:( 0.5 N + 2 / %BW ) x LC = LWhere N is the number of sections used, % BW is:3dB BW (MHz) x 100divided byCENTER FREQUENCY (MHz)LC is the length constant at the specified center frequency, L is the dimension between theconnectors; C1 and C2 are the connector lengths as shown above. All of the length information given here is approximate. Exact length specifications must be quoted by the factory. If a special length is needed,please submit all of your requirements - both electrical and mechanical. This will enable Lark Engineering to quote the optimum design for your application.Example:A 3 section HQ with a center frequency of 400 MHz a 3dB BW of 40 MHz and SMA jack input and output connectors would be:(1.5 + 0.2) x 1.38 = 2.35 + C1 + C2In most cases, the L dimension is rounded to the nearest 1/4 inch which in this instance would be 2.25inches and the O.A.L. is:2.25 + .800 + .800 =3.85 inches.To convert inches to millimeters multiply x 25.40.Lark Engineering HQ SERIES元器件交易网STOPBAND ATTENUATIONThe graph on the following pages defines the normal specification limits on attenuation Lark bandpass filter series HP, HQ, SF, and SM. The minimum level of attenuation in dB is shown as a "number of 3dB bandwidths from center frequency".Since the frequency characteristics vary for differing bandwidths, it is necessary to establishspecifications for each bandwidth of filter. The different graphs represent various 3dB percentage bandwidths. Intermediate values should be interpolated. The 3dB percentage bandwidth is defined asfollows:STOPATT5.HTM元器件交易网As the 3dB bandwidth is exactly 10% of the center frequency, the answer can be read directly from the 10% graph. Using the 5 section curve at the point -1.5 (255 MHz) we find the minimum level of attenuation is 36dB. At +1.6 (348 MHz) the minimum level of attenuation is 48dB.For special requirements, please contact our Application Engineering Department.STOPBAND ATTENUATIONSTOPBAND ATTENUATIONSTOPATT5.HTM元器件交易网STOPBAND ATTENUATIONSTOPBAND ATTENUATIONSTOPBAND ATTENUATION。

1/24July 2003s OUTPUT CURRENT UP TO 100mAsOUTPUT VOLTAGES OF 3.3;5;6;8;9;10;12;15;18;20;24Vs THERMAL OVERLOAD PROTECTION s SHORT CIRCUIT PROTECTIONsNO EXTERNAL COMPONENTS ARE REQUIREDsAVAILABLE IN EITHER ±5%(AC)OR ±10%(C)SELECTIONDESCRIPTIONThe L78L00series of three-terminal positive regulators employ internal current limiting and thermal shutdown,making them essentially indestructible.If adequate heat-sink is provided,they can deliver up to 100mA output current.They are intended as fixed voltage regulators in a wide range of applications including local or on-card regulation for elimination of noise and distribution problems associated with single-point regulation.In addition,they can be used with power pass elements to make high-current voltage regulators.The L78L00series used as Zener diode/resistor combination replacement,offers an effective output impedance improvement of typically twoorders of magnitude,along with lower quiescent current and lower noise.L78L00SERIESPOSITIVE VOLTAGEREGULATORSL78L00SERIES2/24ABSOLUTE MAXIMUM RATINGS(*)Our SO-8package used for Voltage Regulators is modified internally to have pins 2,3,6and 7electrically communed to the die attach flag.This particular frame decreases the total thermal resistance of the package and increasesits ability to dissipate power when an appro-priate area of copper on the printed circuit board is available for heat-sinking.The external dimensions are the same as for the standard SO-8.THERMAL DATA(*)Considering 6cm of copper Board heat-sinkTEST CIRCUITSCONNECTION DIAGRAM (top view)SymbolParameter²Value UnitV I DC Input VoltageV O =3.3to 9V 30V V O =12to 15V 35V O =18to 24V40I O Output Current 100mA P tot Power DissipationInternally Limited (*)T stg Storage Temperature Range-40to 150°C T opOperating Junction Temperature Range for L78L00C,L78L00AC 0to 125°C for L78L00AB-40to 125Symbol ParameterSO-8TO-92SOT-89Unit R thj-case Thermal Resistance Junction-case Max 2015°C/W R thj-ambThermal Resistance Junction-ambientMax55(*)200°C/WL78L00SERIES ORDERING CODESTYPE SO-8(TUBE)*TO-92(TUBE)**SOT-89(T&R)OUTPUT VOLTAGE L78L33C L78L33CD L78L33CZ 3.3VL78L33AC L78L33ACD L78L33ACZ L78L33ACUTR 3.3VL78L33AB L78L33ABD L78L33ABZ L78L33ABUTR 3.3VL78L05C L78L05CD L78L05CZ5VL78L05AC L78L05ACD L78L05ACZ L78L05ACUTR5VL78L05AB L78L05ABD L78L05ABZ L78L05ABUTR5VL78L06C L78L06CD L78L06CZ6VL78L06AC L78L06ACD L78L06ACZ L78L06ACUTR6VL78L06AB L78L06ABD L78L06ABZ L78L06ABUTR6VL78L08C L78L08CD L78L08CZ8VL78L08AC L78L08ACD L78L08ACZ L78L08ACUTR8VL78L08AB L78L08ABD L78L08ABZ L78L08ABUTR8VL78L09C L78L09CD L78L09CZ9VL78L09AC L78L09ACD L78L09ACZ L78L09ACUTR9VL78L09AB L78L09ABD L78L09ABZ L78L09ABUTR9VL78L10C L78L10CD L78L10CZ10VL78L10AC L78L10ACD L78L10ACZ L78L10ACUTR10VL78L10AB L78L10ABD L78L10ABZ L78L10ABUTR10VL78L12C L78L12CD L78L12CZ12VL78L12AC L78L12ACD L78L12ACZ L78L12ACUTR12VL78L12AB L78L12ABD L78L12ABZ L78L12ABUTR12VL78L15C L78L15CD L78L15CZ15VL78L15AC L78L15ACD L78L15ACZ L78L15ACUTR15VL78L15AB L78L15ABD L78L15ABZ L78L15ABUTR15VL78L18C L78L18CD L78L18CZ18VL78L18AC L78L18ACD L78L18ACZ L78L18ACUTR18VL78L18AB L78L18ABD L78L18ABZ L78L18ABUTR18VL78L20C L78L20CD L78L20CZ20VL78L20AC L78L20ACD L78L20ACZ L78L20ACUTR20VL78L20AB L78L20ABD L78L20ABZ L78L20ABUTR20VL78L24C L78L24CD L78L24CZ24VL78L24AC L78L24ACD L78L24ACZ L78L24ACUTR24VL78L24AB L78L24ABD L78L24ABZ L78L24ABUTR24V(*)Available in Tape&Reel with the suffix"13TR".(**)Available in Ammopak with the suffix"-AP"or in Tape&Reel with the suffix"TR".3/24L78L00SERIES4/24ELECTRICAL CHARACTERISTICS OF L78L33C (refer to the test circuits,T J =0to 125°C,V I =8.3V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L05C (refer to the test circuits,T J =0to 125°C,V I =10V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 3.036 3.33.564V V O Output Voltage I O =1to 40mA V I =5.3to 20V 2.97 3.63VI O =1to 70mA V I =8.3V2.973.63∆V O Line Regulation V I =5.3to 20V T J =25°C 150mV V I =6.3to 20V T J =25°C 100∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =6.3to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C40µV SVR Supply Voltage Rejection V I =6.3to 16.3V f =120Hz I O =40mAT J =25°C4149dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 4.655.4V V O Output Voltage I O =1to 40mA V I =7to 20V 4.5 5.5VI O =1to 70mA V I =10V4.55.5∆V O Line Regulation V I =8.5to 20V T J =25°C 200mV V I =9to 20V T J =25°C 150∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =8to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C40µV SVR Supply Voltage Rejection V I =9to 20V f =120Hz I O =40mAT J =25°C4049dB V dDropout Voltage1.7VL78L00SERIES5/24ELECTRICAL CHARACTERISTICS OF L78L06C (refer to the test circuits,T J =0to 125°C,V I =12V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L08C (refer to the test circuits,T J =0to 125°C,V I =14V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 5.5266.48V V O Output Voltage I O =1to 40mA V I =8.5to 20V 5.4 6.6VI O =1to 70mA V I =12V5.46.6∆V O Line Regulation V I =8.5to 20V T J =25°C 200mV V I =9to 20V T J =25°C 150∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =8to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C50µV SVR Supply Voltage Rejection V I =9to 20V f =120Hz I O =40mAT J =25°C3846dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 7.3688.64V V O Output Voltage I O =1to 40mA V I =10.5to 23V 7.28.8VI O =1to 70mA V I =14V7.28.8∆V O Line Regulation V I =10.5to 23V T J =25°C 200mV V I =11to 23V T J =25°C 150∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =11to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C60µV SVR Supply Voltage Rejection V I =12to 23V f =120Hz I O =40mAT J =25°C3645dB V dDropout Voltage1.7VL78L00SERIES6/24ELECTRICAL CHARACTERISTICS OF L78L09C (refer to the test circuits,T J =0to 125°C,V I =15V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L10C (refer to the test circuits,T J =0to 125°C,V I =16V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 8.2899.72V V O Output Voltage I O =1to 40mA V I =11.5to 23V 8.19.9VI O =1to 70mA V I =15V8.19.9∆V O Line Regulation V I =11.5to 23V T J =25°C 250mV V I =12to 23V T J =25°C 200∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =12to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C70µV SVR Supply Voltage Rejection V I =12to 23V f =120Hz I O =40mAT J =25°C3644dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 9.21010.8V V O Output Voltage I O =1to 40mA V I =12.5to 23V 911VI O =1to 70mA V I =16V911∆V O Line Regulation V I =12.5to 23V T J =25°C 230mV V I =13to 23V T J =25°C 170∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =13to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C60µV SVR Supply Voltage Rejection V I =14to 23V f =120Hz I O =40mAT J =25°C3745dB V dDropout Voltage1.7VL78L00SERIES7/24ELECTRICAL CHARACTERISTICS OF L78L12C (refer to the test circuits,T J =0to 125°C,V I =19V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L15C (refer to the test circuits,T J =0to 125°C,V I =23V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 11.11212.9V V O Output Voltage I O =1to 40mA V I =14.5to 27V 10.813.2VI O =1to 70mA V I =19V10.813.2∆V O Line Regulation V I =14.5to 27V T J =25°C 250mV V I =16to 27V T J =25°C 200∆V O Load Regulation I O =1to 100mA T J =25°C 100mV I O =1to 40mA T J =25°C50I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =16to 27V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C80µV SVR Supply Voltage Rejection V I =15to 25V f =120Hz I O =40mAT J =25°C3642dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 13.81516.2V V O Output Voltage I O =1to 40mA V I =17.5to 30V 13.516.5VI O =1to 70mA V I =23V13.516.5∆V O Line Regulation V I =17.5to 30V T J =25°C 300mV V I =20to 30V T J =25°C 250∆V O Load Regulation I O =1to 100mA T J =25°C 150mV I O =1to 40mA T J =25°C75I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =20to 30V 1.5eN Output Noise Voltage B =10Hz to 100KHzT J =25°C90µV SVR Supply Voltage Rejection V I =18.5to 28.5V f =120Hz I O =40mA T J =25°C3339dB V dDropout Voltage1.7VL78L00SERIES8/24ELECTRICAL CHARACTERISTICS OF L78L18C (refer to the test circuits,T J =0to 125°C,V I =27V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L20C (refer to the test circuits,T J =0to 125°C,V I =29V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 16.61819.4V V O Output Voltage I O =1to 40mA V I =22to 33V 16.219.8VI O =1to 70mA V I =27V16.219.8∆V O Line Regulation V I =22to 33V T J =25°C 320mV V I =22to 33V T J =25°C 270∆V O Load Regulation I O =1to 100mA T J =25°C 170mV I O =1to 40mA T J =25°C85I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =23to 33V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C120µV SVR Supply Voltage Rejection V I =23to 33V f =120Hz I O =40mAT J =25°C3238dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 18.42021.6V V O Output Voltage I O =1to 40mA V I =24to 33V 1822VI O =1to 70mA V I =29V1822∆V O Line Regulation V I =22.5to 34V T J =25°C 330mV V I =24to 34V T J =25°C 280∆V O Load Regulation I O =1to 100mA T J =25°C 180mV I O =1to 40mA T J =25°C90I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =25to 33V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C120µV SVR Supply Voltage Rejection V I =25to 35V f =120Hz I O =40mAT J =25°C3138dB V dDropout Voltage1.7VL78L00SERIES9/24ELECTRICAL CHARACTERISTICS OF L78L24C (refer to the test circuits,T J =0to 125°C,V I =33V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L33AB AND L78L33AC(refer to the test circuits,V I =8.3V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L33AC,T J =-40to 125°C for L78L33AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 22.12425.9V V O Output Voltage I O =1to 40mA V I =27to 38V 21.626.4VI O =1to 70mA V I =33V21.626.4∆V O Line Regulation V I =27to 38V T J =25°C 350mV V I =28to 38V T J =25°C 300∆V O Load Regulation I O =1to 100mA T J =25°C 200mV I O =1to 40mA T J =25°C100I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =28to 38V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C200µV SVR Supply Voltage Rejection V I =29to 35V f =120Hz I O =40mAT J =25°C3037dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 3.168 3.33.432V V O Output Voltage I O =1to 40mA V I =5.3to 20V 3.135 3.465VI O =1to 70mA V I =8.3V3.1353.465∆V O Line Regulation V I =5.3to 20V T J =25°C 150mV V I =6.3to 20V T J =25°C 100∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =6.3to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C40µV SVR Supply Voltage Rejection V I =6.3to 16.3V f =120Hz I O =40mAT J =25°C4149dB V dDropout Voltage1.7VL78L00SERIES10/24ELECTRICAL CHARACTERISTICS OF L78L05AB AND L78L05AC (refer to the test circuits,V I =10V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L05AC,T J =-40to 125°C for L78L05AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L06AB AND L78L06AC (refer to the test circuits,V I =12V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L06AC,T J =-40to 125°C for L78L06AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 4.855.2V V O Output Voltage I O =1to 40mA V I =7to 20V 4.75 5.25VI O =1to 70mA V I =10V4.755.25∆V O Line Regulation V I =7to 20V T J =25°C 150mV V I =8to 20V T J =25°C 100∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =8to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C40µV SVR Supply Voltage Rejection V I =8to 18V f =120Hz I O =40mAT J =25°C4149dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 5.7666.24V V O Output Voltage I O =1to 40mA V I =8.5to 20V 5.7 6.3VI O =1to 70mA V I =12V5.76.3∆V O Line Regulation V I =8.5to 20V T J =25°C 150mV V I =9to 20V T J =25°C 100∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =9to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C50µV SVR Supply Voltage Rejection V I =9to 20V f =120Hz I O =40mAT J =25°C3946dB V dDropout Voltage1.7V11/24ELECTRICAL CHARACTERISTICS OF L78L08AB AND L78L08AC (refer to the test circuits,V I =14V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L08AC,T J =-40to 125°C for L78L08AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L09AB AND L78L09AC (refer to the test circuits,V I =15V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L09AC,T J =-40to 125°C for L78L09AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 7.6888.32V V O Output Voltage I O =1to 40mA V I =10.5to 23V 7.68.4VI O =1to 70mA V I =14V7.68.4∆V O Line Regulation V I =10.5to 23V T J =25°C 175mV V I =11to 23V T J =25°C 125∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =11to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C60µV SVR Supply Voltage Rejection V I =12to 23V f =120Hz I O =40mAT J =25°C3745dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 8.6499.36V V O Output Voltage I O =1to 40mA V I =11.5to 23V 8.559.45VI O =1to 70mA V I =15V8.559.45∆V O Line Regulation V I =11.5to 23V T J =25°C 225mV V I =12to 23V T J =25°C 150∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =12to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C70µV SVR Supply Voltage Rejection V I =12to 23V f =120Hz I O =40mAT J =25°C3744dB V dDropout Voltage1.7V12/24ELECTRICAL CHARACTERISTICS OF L78L10AB AND L78L10AC (refer to the test circuits,V I =16V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L10AC,T J =-40to 125°C for L78L10AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L12AB AND L78L12AC (refer to the test circuits,V I =19V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L12AC,T J =-40to 125°C for L78L12AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 9.61010.4V V O Output Voltage I O =1to 40mA V I =12.5to 23V 9.510.5VI O =1to 70mA V I =16V9.510.5∆V O Line Regulation V I =12.5to 23V T J =25°C 230mV V I =13to 23V T J =25°C 170∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =13to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C60µV SVR Supply Voltage Rejection V I =14to 23V f =120Hz I O =40mAT J =25°C3745dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 11.51212.5V V O Output Voltage I O =1to 40mA V I =14.5to 27V 11.412.6VI O =1to 70mA V I =19V11.412.6∆V O Line Regulation V I =14.5to 27V T J =25°C 250mV V I =16to 27V T J =25°C 200∆V O Load Regulation I O =1to 100mA T J =25°C 100mV I O =1to 40mA T J =25°C50I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =16to 27V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C80µV SVR Supply Voltage Rejection V I =15to 25V f =120Hz I O =40mAT J =25°C3742dB V dDropout Voltage1.7V13/24ELECTRICAL CHARACTERISTICS OF L78L15AB AND L78L15AC (refer to the test circuits,V I =19V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L15AC,T J =-40to 125°C for L78L15AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L18AB AND L78L18AC(refer to the test circuits,V I =27V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L18AC,T J =-40to 125°C for L78L18AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 14.41515.6V V O Output Voltage I O =1to 40mA V I =17.5to 30V 14.2515.75VI O =1to 70mA V I =23V14.2515.75∆V O Line Regulation V I =17.5to 30V T J =25°C 300mV V I =20to 30V T J =25°C 250∆V O Load Regulation I O =1to 100mA T J =25°C 150mV I O =1to 40mA T J =25°C75I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =20to 30V 1.5eN Output Noise Voltage B =10Hz to 100KHzT J =25°C90µV SVR Supply Voltage Rejection V I =18.5to 28.5V f =120Hz I O =40mA T J =25°C3439dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 17.31818.7V V O Output Voltage I O =1to 40mA V I =22to 33V 17.118.9VI O =1to 70mA V I =27V17.118.9∆V O Line Regulation V I =22to 33V T J =25°C 320mV V I =22to 33V T J =25°C 270∆V O Load Regulation I O =1to 100mA T J =25°C 170mV I O =1to 40mA T J =25°C85I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =23to 33V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C120µV SVR Supply Voltage Rejection V I =23to 33V f =120Hz I O =40mAT J =25°C3338dB V dDropout Voltage1.7V14/24ELECTRICAL CHARACTERISTICS OF L78L20AB AND L78L20AC (refer to the test circuits,V I =29V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L20AC,T J =-40to 125°C for L78L20AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L24AB AND L78L24AC (refer to the test circuits,V I =27V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L24AC,T J =-40to 125°C for L78L24AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 19.22020.8V V O Output Voltage I O =1to 40mA V I =24to 33V 1921VI O =1to 70mA V I =29V1921∆V O Line Regulation V I =22.5to 34V T J =25°C 330mV V I =24to 34V T J =25°C 280∆V O Load Regulation I O =1to 100mA T J =25°C 180mV I O =1to 40mA T J =25°C90I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =25to 33V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C120µV SVR Supply Voltage Rejection V I =25to 35V f =120Hz I O =40mAT J =25°C3238dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 232425V V O Output Voltage I O =1to 40mA V I =27to 38V 22.825.2VI O =1to 70mA V I =33V22.825.2∆V O Line Regulation V I =27to 38V T J =25°C 350mV V I =28to 38V T J =25°C 300∆V O Load Regulation I O =1to 100mA T J =25°C 200mV I O =1to 40mA T J =25°C100I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =28to 38V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C200µV SVR Supply Voltage Rejection V I =23to 33V f =120Hz I O =40mAT J =25°C3137dB V dDropout Voltage1.7VFigure1:L78L05/12Output Voltage vs Ambient TemperatureFigure2:L78L05/12/24Load Characteristics Figure3:L78L05/12/24Thermal Shutdown Figure4:L78L05/12Quiescent Current vs Output CurrentFigure5:L78L05Quiescent Current vs Input VoltageFigure6:L78L05/12/24OutputCharacteristics15/24Figure7:L78L05/12/24Ripple Rejection Figure8:L78L05Dropout Characteristics Figure9:L78L00Series Short Circuit OutputCurrent16/2417/24TYPICAL APPLICATIONSTable 10:High Output Current Short Circuit ProtectedFigure 11:Edit Boost CircuitFigure 12:CurrentRegulatorFigure13:Adjustable OutputRegulator18/24Information furnished is believed to be accurate and reliable. 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5050LED贴片led封装和3528贴片led封装详解1、3528贴片led与5050贴片有什么区别主要是代表规格外形尺寸的表示：35mm*28mm,50mm*50mm尺寸不一样，功率也不一样，在贴片的应用上，3528不管是在亮度上还是在寿命上都没有5050有优势，大小不同样。

2、3528和5050贴片LED有什么用途？3528,5050,都是SMD表贴式LED封装形式的成品灯尺寸。

用尺寸做名字。

表贴式SMD灯和直插式DIP灯相比，亮度偏低，但维修方便，视角也大些。

所以一般室内LED显示屏用的几乎都是SMD贴片LED.3、LED软灯条50505050是LED封装的型号。

以尺寸规格命名。

是指5050型号LED灯珠。

4、3528和5050贴片LED有什么用途？3528,5050,都是SMD表贴式LED封装形式的成品灯尺寸。

用尺寸做名字。

表贴式SMD灯和直插式DIP灯相比，亮度偏低，但维修方便，视角也大些。

所以一般室内LED显示屏用的几乎都是SMD贴片LED.5、兼容食人鱼02.03.04怎么意思？SMD是怎么？大功率又是怎么食人鱼是由SMD芯片组成，02.03.04是LED支架的型号。

Surface Mounted Devices的缩写，意为：表面贴装器件SMD是产品的统一型号。

例如：TOP,Chip,都可以成为SMD,也就是属于平面封装。

SMD芯片有点笼统，用封装5050或者3528贴片的芯片来做食人鱼。

当然芯片大小又有很多种。

常用来做SMD的尺寸从7×9mil--24×10mil不等。

大功率是：电压超过0.5W就可以叫大功率了。

LED测试技术的基本知识正向电压：通过发光二极管的正向电流为确定值时，在两极间产生的电压降。

反向电流：加在发光二极管两端的反向电压为确定值时，流过发光二极管的电流。

峰值波长：光谱辐射功率最大的波长。

半强度角：在发光（或辐射）强度分布中，发光（或辐射）发光强度大于等于最大强度一半构成的角度。

UNISONIC TECHNOLOGIES CO., LTDUP1856PNP SILICON TRANSISTORHIGH CURRENT TRANSISTORFEATURES* High current switching * Low V CE(SAT) * High h FE*Pb-free plating product number: UP1856LORDERING INFORMATIONOrder Number Pin AssignmentNormal Lead Free Plating Package 1 2 3 PackingUP1856-AA3-R UP1856L-AA3-R SOT-223 B C E Tape ReelABSOLUTE MAXIMUM RATINGPARAMETER SYMBOL RATINGS UNITCollector-Base Voltage V CBO -220 V Collector-Emitter Voltage V CEO -200 V Emitter-Base Voltage V EBO -6 V Peak Pulse Current I C(PEAK)-5 A Continuous Collector Current I C -2 A Power Dissipation at Ta=25°C P D 1 W Junction Temperature T J +150 Storage Temperature T STG -40 ~ +150Note Absolute maximum ratings are those values beyond which the device could be permanently damaged.Absolute maximum ratings are stress ratings only and functional device operation is not implied.ELECTRICAL CHARACTERISTICS (Ta = 25 unless otherwise specified)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNIT Collector-Emitter Breakdown Voltage BV CEO I C = -10mA, I B =0 (Note) -200 -240 VCollector-Base Breakdown Voltage BV CBO I C = -0.1mA, I E =0 -220-300 V Emitter-Base Breakdown Voltage BV EBO I E = -0.1mA, I C =0 -6 -8 VI C = -100mA, I B = -10mA-30 -50mV I C = -1A, I B = -100mA-120 -165mV Collector-Emitter Saturation Voltage(Note) V CE(SAT) I C = -2A, I B =-400mA -168 -275mVBase-Emitter Saturation Voltage V BE(SAT) I C =-2A, I B =-400mA -970 -1110mV Base-Emitter Turn-On Voltage V BE(ON) I C =-2A, V CE =-5V (Note) -810 -950mV Collector Cut-Off Current I CBO V CB =-200V, I E =0 -50nA Emitter Cut-Off Current I EBO V EB =-6V, I C =0 -10nAh FE1 I C =-10mA, V CE =-5V 100 200 300 h FE2 I C =-1A, V CE =-5V 100 200h FE3 I C =-2A, V CE =-5V 50 150DC Current Gain (Note)h FE4I C =-5A, V CE =-5V 10 Transition Frequency f TI C =-100mA, V CE =-10Vf=50MHz110 MHz Output Capacitance C ob V CB =-20V, f=1MHz 32 pF Turn-on Time t ON 67 ns Turn-off Time t OFFI C =-1A, I B1=-100mAI B2=100mA, V CC =-50V 1140 ns Note: Pulsed test: duty cycle ≤ 2%, t P =300µsec.TYPICAL CHARACTERISTICSCollector Current , I C (A)Collector-Emitter Saturation Voltagevs.Collector CurrentC o l l e c t o r -E m i t t e rS a t u r a t i o n V o l t a g e , V C E (S A T )(V )10.010.111020Base-Emitter Saturation vs.Collector CurrentCollector Current, I C (A)B a s e -Em i t t e r S a t u r a t i o n , V B E (S A T ) (V )0.0110.110200.001Collector Current, I C (A)DC Current Gain vs. Collector Current0.0010.0110.11020D C C u r r e n t G a i n , h F E100200300Collector Current , I C (A)Base-Emitter Turn-on Voltagevs CollectorB a s e -E m i t t e r T u r n -o nV o l t a g e , V B E (O N ) (V )0.0010.010.111020。