1206液晶资料

1602,12864是如何扫描的
把以前的总结发出来
新手可能一直在想1206和12864是怎样工作的呢？其实这些液晶屏都是点阵屏里边有无数个黑点组成，有电压施与两端时该小点点便会发黑，这样便形成一个字符或图像，下面简单介绍点阵原理，如下图是8x8点阵原理
点阵是有64个发光的led小灯组成，假如想要显示一个字，使相应的小灯亮即可，假如我们要显示一个“工”字，我们可以让第一行亮，中间一竖行亮，最后一行亮就行了。

如果我们使用列扫描，相应的操作就是Y0到Y7都给一个高电平，先让i0=0x9e,
再扫描下一列i1=0x9e，i2=0x9e，i3=0x9e，i4=00，
i5=0x9e,i6=0x9e,i7=0x9e,
这样一个王子编出来了。

Technical Data SheetProduct Name：1206 High Bright Purple Chip LEDPart Number：HT15-2102UPCCustomer：Customer PN：Version No.： A.2Date：2009.01.01Customer ApprovalInstituted By：Checked By: Approved By：HARVATEK OPTO-ELECTRONICS (SHENZHEN) CO., LTD.TEL：*************FAX：*************Web：3. Soldering Profile Suggested3.1、For Lead Solder3.2、For Lead Free Solder4. Absolute Maximum Ratings At Ta=25℃Parameter Symbol Rating Unit Power Dissipation Pd 90 mWPeak Forward Current(1/10 Duty Cycle, 0.1ms Pulse Width)I FP100 mA DC Forward Current I F30 mA Reverse V oltage V R 5 V Operating Temperature Range Topr -30°C ~ + 85°C Storage Temperature Range Tstg -40°C ~ + 90°CSoldering Condition Tsol Reflow soldering : 260°C For 5 Seconds Hand soldering: 300°C For 3 Seconds5. Electrical Optical Characteristics At Ta=25℃Parameter Symbol Min. Typ. Max. Unit Test Condition Luminous Intensity IV --- 4 --- mcd IF = 20mA Viewing Angle 2θ1/2 --- 120 --- deg IF = 20mA Dominant Wavelength λd --- 408 --- nm IF=20mA Peak Wavelength λp --- 420 --- nm IF=20mA Spectral Line Half-Width Δλ--- 30 --- nm IF=20mA Forward V oltage VF 2.8 --- 3.6 V IF=20mA Reverse Current IR --- --- 10 uA VR=5VNotes: 1. Luminous intensity is measured with a light sensor and filter combination that approximates the CIE eye-response curve.2. θ1/2 is the off-axis angle at which the luminous intensity is half the axial luminous intensity.3. The dominant wavelength, λd is derived from the CIE chromaticity diagram and represents thesingle wavelength which defines the color of the device.11. Reliability TestClassification Test Item Test Condition Reference Standard Reference StandardOperation Life Ta= Under Room Temperature As PerData Sheet Maximum Rating1000HRS(-24HRS,+72HRS)*@20mAMIL-STD-750D:1026MIL-STD-883D:1005JIS C 7021:B-1High Temperature, High Humidity Storage IR-Reflow In-Board, 2 TimesTa= 65±5,RH= 90℃〜95%240HRS±2HRS MIL-STD-202F:103BJIS C 7021:B-11High Temperature Storage Ta= 105±5℃1000HRS(-24HRS,+72HRS)MIL-STD-883D:1008JIS C 7021:B-10EnduranceTestLow Temperature Storage Ta= -55±5℃1000HRS(-24HRS,+72H RS)JIS C 7021:B-12Temperature Cycling 105℃〜25℃〜-55℃〜25℃30mins 5mins 30mins 5mins10 CyclesMIL-STD-202F:107DMIL-STD-750D:1051MIL-STD-883D:1010JIS C 7021:A-4Thermal Shock IR-Reflow In-Board, 2 Times85 ± 5℃〜-40± 5℃℃10mins 10mins10 CyclesMIL-STD-202F:107DMIL-STD-750D:1051MIL-STD-883D:1011Solder Resistance T.sol= 260 ± 5℃10 ± 1secsMIL-STD-202F:210AMIL-STD-750D:2031JIS C 7021:A-1IR-Reflow Normal Process Ramp-up rate(183 to Peak) +3/ second max℃℃Temp. maintain at 125(±25) 120 seconds max℃Temp. maintain above 183 60℃-150 secondsPeak temperature range 235+5/℃-0℃Time within 5°C of actual Peak Temperature (tp)10-30 secondsRamp-down rate +6/second max℃--------MIL-STD-750D:2031.2J-STD-020CIR-Reflow Pb Free Process Ramp-up rate(217 to Peak) +3/ second max℃℃Temp. maintain at 175(±25) 180 seconds max℃Temp. maintain above 217 60℃-150 secondsPeak temperature range 260+0/℃-5℃Time within 5°C of actual Peak Temperature (tp)20-40 secondsRamp-down rate +6/second max℃--------MIL-STD-750D:2031.2J-STD-020CEnvironmentalTestSolderability T.sol= 235 ± 5℃Immersion rate 25±2.5 mm/secCoverage 95% of the dipped surface≧Immersion time 2±0.5secMIL-STD-202F:208DMIL-STD-750D:2026MIL-STD-883D:2003IEC 68 Part 2-20JIS C 7021:A-212. CautionsApplication1. A LED is a current-operated device. The slight shift of voltage will cause big change of current, whichwill damage LEDs. Customer should use resistors in series for the Over-Current-Proof.2.In order to ensure intensity uniformity on multiple LEDs connected in parallel in an application, it isrecommended to use individual resistor separately, as shown in Circuit A below. The brightness of each LED shown in Circuit B might appear difference due to the differences in the I-V characteristics of those LEDs.Circuit model A Circuit model B3.High temperature may reduce LEDs’ intensity and other performances, so keeping it away from heatsource to get good performance is necessary.Storage1.Before opening original package, it is recommended to store them in the following environment:Temperature: 5℃~30Humidity: 85%RH max.℃2. After opening original package, the storage ambient for the LEDs should be in 5~30°C temperature and60% or less relative humidity.3. In order to avoid moisture absorption, it is recommended that the LEDs that out of the original packageshould be stored in a sealed container with appropriate desiccant, or in desiccators with nitrogen ambient.4. The LEDs should be used within 168hrs (7 days) after opening the package. Once been mounted, solderingshould be quick.5. If the moisture absorbent material (silica gel) has faded away or the LEDs stored out of originalpackage for more than 168hrs (7 days), baking treatment should be performed using the conditions:60℃ at least 24 hours.ESD (Electrostatic Discharge )-ProtectionA LED (especially the Blue、White and Green product) is an ESD sensitive component, and staticelectricity or power surge will damage the LED. ESD-damaged LEDs will exhibit abnormal characteristics such as high reverse leakage current, low forward voltage, or “no light-up” at low currents, etc.Some advice as below should be noticed:1. A conductive wrist strap or anti-electrostatic glove should be worn when handling these LEDs.2. All devices, equipment, machinery, work tables and storage racks, etc. must be properly grounded.Harvatek Technical Data SheetPart No. : HT15-2102UPCVersionA.2 Issued date 2009.01.01 Page 10of 10 HARVA TEK OPTO-ELECTRONICS (SHENZHEN) CO., LTD. 3. Use anti-static package or boxes to carry and storage LEDs. And ordinary plastic package or boxes is forbidden to use.4. Use ionizer to neutralize the static charge during handling or operating.5. All surfaces and objects within 1 ft close to LEDs measure less than 100V .CleaningUse alcohol-based cleaning solvents such as IPA (isopropyl alcohol) to clean LEDs if necessary.Soldering1. Soldering condition refer to the draft “Soldering Profile Suggested ” on page 1.2. Reflow soldering should not be done more than 2 times.3. Manual soldering is only suggested on repair and rework. The maximum soldering temperature should not exceed 300°C within 3 sec. And the maximum capacity of soldering iron is 30W in power.4. During the soldering process, do not touch the lens at high temperature.5. After soldering, any mechanical force on the lens or any excessive vibration shall not be accepted to apply, also the circuit board shall not be bent as well.Others1. The LEDs described here are intended to be used for ordinary electronic equipment (such as office equipment, communication equipment and household applications).Consult Harvatek ’s Sales in advance for the applications in which exceptional reliability is required, particularly when the failure or malfunction of the LEDs may directly jeopardize life or health. (such as in aviation, transportation, traffic control equipment, medical and life support systems and safety devices).2. The light output from the high luminous intensity LEDs may cause injury to human eyes when viewed directly.3. The appearance and specifications of the product may be modified for improvement without prior notice.。

1206贴片发光管参数
1206贴片发光管是一种常用的贴片LED产品，其参数通常包
括以下几个方面：
1. 尺寸：1206代表了该发光管的尺寸，尺寸为长12mm、宽
6mm。

2. 峰值波长：发光管的峰值波长决定了其发出的光的颜色，常见的有红色（620-635nm）、黄色（585-595nm）、绿色
（515-530nm）、蓝色（465-475nm）等。

3. 亮度：亮度是发光管发出的光的强度，通常用cd/m²（nit）
或者mcd等单位来表示。

4. 角度：角度表示了光线的发散程度，通常用度（°）来表示，常见的有120°，140°等。

5. 工作电流：发光管的工作电流通常用mA（毫安）来表示，
不同颜色的发光管有不同的工作电流要求。

6. 工作电压：发光管的工作电压通常用V（伏）来表示，不同颜色的发光管有不同的工作电压要求。

7. 灯光衰减：发光管的灯光衰减率表示了其寿命和稳定性，通常用小时（h）来表示。

需要注意的是，以上参数仅为一般情况下的参考值，实际产品的参数可能会根据生产厂家和产品型号的不同而有所变化。

Document Number: 63106For any questions, contact: foil@VFCP Series (0805, 1206, 1506, 2010, 2512) (Z-Foil)Vishay Foil ResistorsUltra High Precision Z-Foil Flip Chip Resistor with TCRof ± 0.05 ppm/°C, 35 % Space Saving versusWraparound Design and PCR of 5 ppm at Rated PowerI MP R O V E D P R O D UC Any value at tolerance available within resistance rangeINTRODUCTIONOne of the most important parameters influencing stability is the Temperature Coefficient of Resistance (TCR). Although the TCR of Bulk Metal ® Foil resistors is considered extremely low, this characteristic has been further refined over the years.The VFCP Series utilizes ultra precision Bulk Metal ® Z-Foil.The Z-Foil technology provides a significant reduction to the resistive element’s sensitivity to ambient temperaturevariations (TCR) and to self heating when power is applied (power coefficient).Along with the inherently low PCR and TCR, Z-Foil technology also provides remarkably improved load life stablility, low noise and availability of tight tolerance.The Flip Chip configuration provides a substantial PCB space saving of more than 35 % vs. a surface mount chip with wraparound terminations. The VFCP is available in any value within the specified resistance range.Our Application Engineering Department is available to advise and make recommendations. For non-standard technical requirements and special applications, please contact us.FEATURES•Temperature Coefficient of Resistance (TCR):± 0.05 ppm/°C typical (0 °C to + 60 °C)± 0.2 ppm/°C typical (- 55 °C to + 125 °C, +25 °C Ref.)•Tolerance: to ± 0.01 % (100 ppm) •Power Coefficient “ΔR due to self heating”5 ppm at Rated Power•Load Life Stability (70 °C for 2000 hours): ± 0.005 % (50 ppm)•Power Rating to: 600 mW at + 70 °C•Electrostatic Discharge (ESD) above 25 000 V•Resistance Range: 10Ω to 150 k Ω (for lower and higher values, please contact us)•Non Inductive, Non Capacitive Design •Short time overload ≤ 0.005 % (50 ppm)•Non hot spot design•Rise time: 1ns without ringing •Current Noise: - 40 dB•Voltage Coefficient < 0.1 ppm/V •Non Inductive: < 0.08 µH•Terminal Finishes available:Lead (Pb)-freeTin/Lead Alloy•Matched sets are available per request•Any value available within resistance range (e.g. 1K2345)•Prototype samples available from 48 hours. For more information, please contact foil@ •For better performances please contact usAPPLICATIONS•Automatic Test Equipment (ATE)•High Precision Instrumentation •Laboratory, Industrial and Medical •Audio•EB Applications (electron beam scanning and recording equipment, electron microscopes)•Military and Space •Airborne•Down Hole instrumentation •Communication* Pb containing terminations are not RoHS compliant, exemptions may apply TABLE 1 - TOLERANCE AND TCR VSRESISTANCE VALUERESISTANCEVALUE(Ω)TOLERANCE(%)TYPICAL TCR AND MAX. SPREAD (- 55 °C to + 125 °C,+ 25 °C Ref.)250 to 150K± 0.01± 0.2 ± 1.6100 to < 250± 0.02± 0.2 ± 1.650 to < 100± 0.05± 0.2 ± 1.825 to < 50± 0.1± 0.2 ± 2.810 to < 25± 0.25± 0.2 ± 2.8Bottom ViewRoHS*COMPLIANTVFCP Series (0805, 1206, 1506, 2010, 2512) (Z-Foil)Vishay Foil Resistors Ultra High Precision Z-Foil Flip Chip Resistor with TCRof ± 0.05 ppm/°C, 35 % Space Saving versusWraparound Design and PCR of 5 ppm at Rated Power For any questions, contact: foil@Document Number: 63106I M P R O V E D P R Note• For VFCP0805, VFCP1506, VFCP2010 and VFCP2512 DSCC Drawings, please contact foil@Note1.As shown + 0.01 W to allow for measurement errors at low values.TABLE 2 -DSCC SPECIFICATIONS (Vishay resistors are listed on the following DSCC specifications)MODEL DSCC MIL SPEC VFCP12062009MIL-PRF-55342TABLE 3 - SPECIFICATIONSCHIP SIZE RATED POWER (mW)at + 70 °C MAXIMUM VOLTAGE RATING (≤)RESISTANCERANGE (Ω)MAXIMUMWEIGHT(mg)0805100 mW34 V10 to 12K5.21206250 mW 86 V 10 to 30K 10.31506300 mW 109 V 10 to 40K122010400 mW200 V10 to 100K 252512600 mW 220 V10 to 150K35P R ×TABLE 4 - LOAD LIFE STABILITY(+ 70 °C FOR 2000 HOURS)CHIP SIZE MAXIMUM ΔR LIMITS0805± 0.005 % at 50 mW ± 0.01 % at 100 mW1206± 0.005 % at 150 mW ± 0.01 % at 250 mW 1506± 0.005 % at 150 mW ± 0.01 % at 300 mW 2010± 0.005 % at 200mW ± 0.01 % at 400 mW2512± 0.005 % at 500 mW ± 0.01 % at 600 mWTABLE 5 - PERFORMANCESTEST OR CONDITIONMIL-PRF-55342CHARACTERISTIC EΔR LIMITSTYPICAL ΔR LIMITS MAXIMUM ΔR LIMITS 1)Thermal Shock ± 0.1 %± 0.005 % (50 ppm)± 0.01 % (100 ppm)Low T emperature Operation ± 0.1 %± 0.005 % (50 ppm)± 0.01 % (100 ppm)Short Time Overload± 0.1 %± 0.005 % (50 ppm)± 0.01 % (100 ppm)High Temperature Exposure ± 0.1 %± 0.01 % (100 ppm)± 0.02 % (200 ppm)Resistance to Soldering Heat ± 0.2 %± 0.005 % (50 ppm)± 0.015 % (150 ppm)Moisture Resistance± 0.2 %± 0.005 % (50 ppm)± 0.02 % (200 ppm)Load Life Stability + 70 °C for 2000 hours at Rated Power± 0.5 %± 0.005 % (50 ppm)± 0.01 % (100 ppm)Document Number: 63106For any questions, contact: foil@VFCP Series (0805, 1206, 1506, 2010, 2512) (Z-Foil)Ultra High Precision Z-Foil Flip Chip Resistor with TCR of ± 0.05 ppm/°C, 35 % Space Saving versusWraparound Design and PCR of 5 ppm at Rated PowerVishay Foil ResistorsI Mnd Pattern Dimensions are per IPC-782Note•The TCR values for < 100Ω are influenced by the termination composition and result in deviation from this curveVFCP Series (0805, 1206, 1506, 2010, 2512) (Z-Foil)Vishay Foil Resistors Ultra High Precision Z-Foil Flip Chip Resistor with TCRof ± 0.05 ppm/°C, 35 % Space Saving versusWraparound Design and PCR of 5 ppm at Rated Power For any questions, contact: foil@Document Number: 63106I M P R O V E D P R O D U C TNote* For non-standard requests, please contact Application Engineering.TABLE 7 - GLOBAL PART NUMBER INFORMATIONNEW GLOBAL PART NUMBER:Y162910K0000T9W (preferred part number format)DENOTES PRECISIONVALUE AER*YR = ΩK = k Ω0 = Standard9 = Lead (Pb)-free 1 - 999 = CustomPRODUCT CODERESISTANCE TOLERANCEPACKAGING1629 = VFCP08051630 = VFCP12061631 = VFCP15061632 = VFCP20101633 = VFCP2512T = ± 0.01 %Q = ± 0.02 %A = ± 0.05 %B = ± 0.10 %C = ± 0.25 %D = ± 0.50 %F = ± 1.00 %R = Tape and Reel W = Waffle PackFOR EXAMPLE: ABOVE GLOBAL ORDER Y1629 10K0000 T 9 W:TYPE: VFCP0805VALUE: 10.0 k ΩABSOLUTE TOLERANCE: ± 0.01 %TERMINATION: Lead (Pb)-free PACKAGING: Waffle PackHISTORICAL PART NUMBER:VFCP080510K000TCR0.2T S W (will continue to be used)VFCP080510K000TCR0.2TSWMODELOHMIC VALUETCRRESISTANCE TOLERANCE TERMINATIONPACKAGINGVFCP0805VFCP1206VFCP1506VFCP2010VFCP251210.0 k ΩCharacteristicT = ± 0.01 %Q = ± 0.02 %A = ± 0.05 %B = ± 0.10 %C = ± 0.25 %D = ± 0.50 %F = ± 1.00 %S = Lead (Pb)-free B = Tin/LeadT = Tape and Reel W = Waffle Pack6291KY1T9WDisclaimer Legal Disclaimer NoticeVishayAll product specifications and data are subject to change without notice.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.元器件交易网Document Number: 。

LC1206A电源芯⽚资料LC1206A LC 1205A电源集成芯⽚简述：LC1206A 為⾼性能、電流模式PWM⾼壓開關控制器集成電路，專為家電控制器電源設計。

芯⽚具有獨特的交流電壓過零信號檢測與輸出控制電路，可輸出同步的交流電壓過零信號⽤於對繼電LC1206A 為⾼性能、電流模式PWM⾼壓開關控制器集成電路，專為家電制器電源設計。

芯⽚具有獨特的交流電壓過零信號檢測與輸出控制電路，可輸出同步的交流電壓過零信號⽤於對繼電器、可控硅等進⾏過零切換控制，從⽽提⾼系統的可靠性，降低切換損耗，延⾧繼電器壽命。

⾼集成的設計則極⼤地簡化了電路結構，降低了系統成本。

內置800V⾼耐壓功率開關，在90-300V的寬電網電壓範圍內提供⾼達6W 的連續輸出功率。

⾼性價⽐的雙極型製作⼯藝⽣產的控制芯⽚，結合⾼壓功率管的⼀體化封裝最⼤程度上節約了產品的整體成本。

該電源控制器可⼯作於典型的反激電路拓撲中，構成簡潔的AC/DC電源轉換器。

通過對AC 電壓波形的分析，內部電路會驅動⼀個集電極開路的三極管在AC 電壓的每個過零點輸出⼀個穩定的上升波形，從⽽在外部通過⼀個光耦準確輸出過零信號給MCU 系統。

⼯作於初級穩壓模式時獨特的直接反饋控制⼤幅提⾼了系統響應突發負載的速度和能⼒，避免了傳統的PSR結構的負載電壓跳變現象；⼯作於次級反饋模式時則可精確的控制輸出電壓精度。

專有的驅動電路使開關管始終⼯作於臨界飽和狀態，提⾼了系統的⼯作效率，使系統可以輕鬆滿⾜“能源之星”等關於待機功耗和效率的認證要求。

IC 內部還提供了完善的過載與短路保護功能，可對輸出過載、輸出短路等異常狀況進⾏快速保護，提⾼了電源的可靠性。

IC 內部還集成了過溫度保護功能，在芯⽚過熱的情況下降低⼯作頻率或關閉輸出。

現可提供滿⾜ROHS標準及綠⾊環保要求DIP7 標準封裝產品。

主要特點內置交流過零检测及零点信號輸出⽀持初級穩壓或次級穩壓內置800V ⾼壓功率開關內置⾼壓快速啟動電流源系統待機功耗可低⾄0.10W內置過壓、⽋壓與短路保護功能精確溫度補償，精確逐週期電流控制智能⾃適應OTP 過溫度保護功能轉換效率滿⾜能源之星2013-V5 要求宽電網電壓輸出功率6W，峰值输出8W ?機少外圍元件,低整機成本,⾼可靠性應⽤領域家電控制器電源電器控制器電源⼩家電電源。

本产品主要作为信号指示及照明的电子元件广泛应用于各类使用表面贴装结构的电子产品中，如家用电器的开关指示灯、手机键盘灯、汽车仪表盘照明等。

本产品也广泛用作液晶显示屏（LCD ）的背光源。

This product is generally used as indicator and illumination for electronic equipment such as household appliance,communication equipment,and dashboard.And it can also be used as flat backlight for Liquid Crystal Display (LCD).特性：Features:管芯材料：AlGaInP Material:AlGaInP发光颜色：黄色Emitting Color:Yellow光强高，功耗低High Luminous Intensity and Low Power Dissipation 可靠性高，寿命长Good Reliability and Long Life 符合欧盟公布的RoHS 指令要求Complied With RoHS Directive目录Catalogue电性参数Electrical Characteristics 典型特性曲线Typical Characteristic Curves 可靠性实验Reliability Test Items And Conditions 外形尺寸Outline Dimensions 包装Packaging 焊接指导Guideline for Soldering 使用注意事项Precautions GBD-C150KSKT-DZ1206贴片式发光二极管1206Chip Light Emitting Diode技术数据表Technical Data Sheet...............................................................................................................................2.......................................................................................................................3...........................................................................................................4.........................................................................................................................................5.........................................................................................................................................................6..................................................................................................................................8. (10)✧极限参数（温度=25℃）：Absolute Maximum Ratings (Temperature=25°C):*注：脉冲宽度≤0.1ms ，占空比≤1/10*Note:Pulse width ≤0.1ms,Duty ≤1/10✧光电参数（温度=25℃）：Electro-Optical Characteristics (Temperature=25°C):电性参数Electrical Characteristics典型特性曲线Typical Characteristics Curves*1失效判断标准Criteria For Judging Damage可靠性试验Reliability Test Items And Conditions推荐焊盘图：Suggest Soldering Pad Dimensions ：外形尺寸Outline Dimension✧载带CarrierTape单位：mm ，未注公差：±0.1mmAll dimensions in mm,tolerances unless mentioned is ±0.1mm.✧编带细节Details Of Carrier Tape前进方向 ProgressiveDirectionA ：盖带，300mm ；B ：引导，空带，200mm ；C ：编载产品3000只；D ：尾部，空带，200mm A:Top Cover Tape,300mm;B:Leader,Empty,200mm;C:3000Lamps Loaded;D:Trailer,Empty,200mm.✧带盘Reel Dimension前进方向 ProgressiveDirection包装（1）Packaging (1)✧ 防潮抗静电包装Moisture Proof and Anti-Electrostatic Foil Bag✧ 外包装箱Cardboard Box✧ 标签说明Label ExplanationType ：产品型号LOT NO ：批号Lot NumberQTY ：数量QuantityREF ：正向电压范围Forward Voltage RangeHUE ：波长范围Wavelength Range CAT ：光强范围Luminous Intensity Range包装（2）Packaging (2)1.使用烙铁人手焊接Hand Soldering推荐使用功率低于20W 的烙铁，焊接时烙铁的温度必须保持在300℃以下，且每个电极只能进行一次焊接，每次焊接的持续时间不得超过3秒。

1206贴片电容是一种常见的电子元件，用于电路中的滤波、耦合、终端匹配等功能。

在电子设备中，为了保证电路的稳定性和可靠性，选择合适的电容器至关重要。

在选择1206贴片电容时，最大容值和耐压是两个重要的参考指标。

本文将就1206贴片电容的最大容值和耐压进行详细介绍和分析。

一、1206贴片电容的最大容值1206贴片电容的最大容值是指该型号电容器所能容纳的最大电荷量。

在实际应用中，通常会根据具体的电路需求来选择合适的最大容值。

以下是影响1206贴片电容最大容值的主要因素：1. 电路需求：不同的电路对电容容值的要求有所不同。

一般来说，需要大电流通过的电路需要容值较大的电容器。

2. 工作频率：1206贴片电容的最大容值还受到工作频率的影响。

在高频电路中，需要选择容值较小的电容器来确保性能稳定。

3. 电压水平：1206贴片电容的最大容值也与电压水平相关。

在高压电路中，需要选择承受高电压的大容值电容器。

根据以上因素，选择1206贴片电容的最大容值时，需要综合考虑电路需求、工作频率和电压水平，以确保电容器能够有效地满足电路的需求。

二、1206贴片电容的耐压1206贴片电容的耐压是指电容器能够承受的最大电压。

在电子设备中，耐压是一个非常重要的指标，直接关系到电路的安全可靠运行。

以下是影响1206贴片电容耐压的主要因素：1. 化学材料：1206贴片电容的材料不同，在耐压方面的性能也有所差异。

一般来说，有机电解质电容器的耐压较低，而钽质电解质电容器的耐压较高。

2. 结构设计：电容器的内部结构设计也会影响其耐压能力。

合理的结构设计能够有效提高电容器的耐压性能。

3. 工艺水平：生产工艺水平直接影响了电容器的品质，对于耐压来说尤为重要。

优质的工艺能够确保电容器的耐压性能稳定可靠。

在选择1206贴片电容时，需要根据具体电路需求和工作环境来确定合适的耐压水平，以确保电容器能够安全稳定地工作。

总结：1206贴片电容的最大容值和耐压是选择该型号电容器时需要重点考虑的指标，合理选择最大容值和耐压能够有效地满足电路需求，确保电子设备的稳定性和可靠性。

LCD1602和LM016l中文资料编辑整理：尊敬的读者朋友们：这里是精品文档编辑中心，本文档内容是由我和我的同事精心编辑整理后发布的，发布之前我们对文中内容进行仔细校对，但是难免会有疏漏的地方，但是任然希望（LCD1602和LM016l中文资料）的内容能够给您的工作和学习带来便利。

同时也真诚的希望收到您的建议和反馈，这将是我们进步的源泉，前进的动力。

本文可编辑可修改，如果觉得对您有帮助请收藏以便随时查阅，最后祝您生活愉快业绩进步，以下为LCD1602和LM016l中文资料的全部内容。

LCD1602中文资料在日常生活中，我们对液晶显示器并不陌生.液晶显示模块已作为很多电子产品的通过器件，如在计算器、万用表、电子表及很多家用电子产品中都可以看到，显示的主要是数字、专用符号和图形。

在单片机的人机交流界面中，一般的输出方式有以下几种：发光管、LED数码管、液晶显示器。

发光管和LED数码管比较常用，软硬件都比较简单，在单片机系统中应用晶液显示器作为输出器件有以下几个优点：(1）显示质量高，由于液晶显示器每一个点在收到信号后就一直保持那种色彩和亮度，恒定发光，而不像阴极射线管显示器（CRT)那样需要不断刷新新亮点。

因此，液晶显示器画质高且不会闪烁。

（2)数字式接口，液晶显示器都是数字式的，和单片机系统的接口更加简单可靠,操作更加方便。

(3）体积小、重量轻,液晶显示器通过显示屏上的电极控制液晶分子状态来达到显示的目的，在重量上比相同显示面积的传统显示器要轻得多.(4)功耗低,相对而言，液晶显示器的功耗主要消耗在其内部的电极和驱动IC上，因而耗电量比其它显示器要少得多。

一、液晶显示简介1、液晶显示原理：液晶显示的原理是利用液晶的物理特性，通过电压对其显示区域进行控制,有电就有显示，这样即可以显示出图形。

液晶显示器具有厚度薄、适用于大规模集成电路直接驱动、易于实现全彩色显示的特点,目前已经被广泛应用在便携式电脑、数字摄像机、PDA移动通信工具等众多领域。

GENERAL DESCRIPTIONAVX Corporation has supported the Automotive Industry requirements forMultilayer Ceramic Capacitors consistently for more than 10 years. Productshave been developed and tested specifically for automotive applications andall manufacturing facilities are QS9000 and VDA 6.4 approved.As part of our sustained investment in capacity and state of the arttechnology, we are now transitioning from the established Pd/Ag electrodesystem to a Base Metal Electrode system (BME).AVX is using AECQ200 as the qualification vehicle for this transition. A detailedqualification package is available on request and contains results on a rangeof part numbers including:•X7R dielectric components containing BME electrode and copperterminations with a Ni/Sn plated overcoat.•X7R dielectric components, BME electrode with epoxy finish for conductiveglue mounting.•X7R dielectric components BME electrode and soft terminations with aNi/Sn plated overcoat.•NP0 dielectric components containing Pd/Ag electrode and silver termina-tion with a Ni/Sn plated overcoat.AutomotiveHOW TO ORDER0805Size 0402060308051206121018125Voltage 10V = Z 16V = Y 25V = 350V = 5100V = 1200V = 2500V = 72Packaging 2 = 7" Reel 4 = 13" ReelA Dielectric NP0 = A X7R = C X8R = F 104Capacitance Code (In pF)2 Significant Digits + Number of Zeros e.g. 10μF = 106K Capacitance T olerance F = ±1%(≥10pF)*G = ±2%(≥10pF)*J = ±5%(≤1μF)K = ±10%M = ±20%*NPO only4Failure Rate 4 = Automotive A Special CodeA = Std. Product Commercial AutomotiveAdministrative Standard Part Numbers.Specific Automotive Part Number. Used to controlNo restriction on who purchases these parts.supply of product to Automotive customers.Design Minimum ceramic thickness of 0.020"Minimum Ceramic thickness of 0.029" (0.74mm)on all X7R product.Dicing Side & End Margins = 0.003" min Side & End Margins = 0.004" minCover Layers = 0.005" minLot Qualification As per EIA RS469Increased sample plan –(Destructive Physical stricter criteria.Analysis - DPA)Visual/Cosmetic Quality Standard process and inspection 100% inspectionApplication Robustness Standard sampling for accelerated Increased sampling for accelerated wave solder onwave solder on X7R dielectrics X7R and NP0 followed by lot by lot reliability testing.COMMERCIAL VS AUTOMOTIVE MLCC PROCESS COMPARISONAll Tests have Accept/Reject Criteria 0/1T T erminations T = Plated Ni and Sn Z = FLEXITERM ®**U = Conductive Epoxy****X7R & X8R onlyNOTE: Contact factory for non-specified capacitance values.0402 case size available in T termination only.Contact factory for availability of T olerance Options for Specific Part Numbers.FLEXITERM®FEATURES NP0/X7R Dielectrica) Bend TestThe capacitor is soldered to the PC Board as shown:Typical bend test results are shown below:Style Conventional Term Soft Term 0603>2mm>5 0805>2mm>5 1206>2mm>5b) Temperature Cycle testingFLEXITERM®has the ability to withstand at least 1000cycles between –55°C and +125°C 1mm/secELECTRODE AND TERMINATION OPTIONSX7R DIELECTRICNP0 DIELECTRICNP0 Ag/Pd ElectrodeNickel Barrier T erminationPCB ApplicationFigure 1 Termination Code TX7R DielectricFigure 2 Termination Code TX7R Nickel ElectrodeSoft T erminationPCB ApplicationFigure 3 Termination Code ZConductive Epoxy T erminationHybrid Application= Under Development= Under Development= AEC-Q200 Qualified。

Package Dimensions3.2x1.6mm SMD CHIP LED LAMPNotes:1. All dimensions are in millimeters (inches).2. Tolerance is 0.1(0.004") unless otherwise noted.3. Specifications are subject to change without notice.Features!3.2mmx1.6mm SMT LED, 1.8mm THICKNESS.!LOW POWER CONSUMPTION.!WIDE VIEWINGANGLE.!IDEAL FOR BACKLIGHT AND INDICATOR.!PACKAGE : 2000PCS / REEL.DescriptionThe Super Bright Orange source color devices are made with DH InGaAlP on GaAs substrate Light EmittingDiode.55 Commerce WayWoburn, MA 01801(781) 935 - 4442 (781) 938 - 5867www.gilway .comGHB-1206L-OAbsolute Maximum Ratings at T A =25CElectrical / Optical Characteristics at T A =25CSelection GuideNote:1. 1/2 is the angle from optical centerline where the luminous intensity is 1/2 the optical centerline value.Note:1. 1/10 Duty Cycle, 0.1ms Pulse Width.art No..Pa a r t N o .P Noe i c D icens eL e n s s T T y yp p (mcd)Lens Typ )I v (m c d d Iv (mcd iewing @20mA gVi i e w i n V Viewin Anglein..M in in yp .T T y p p .Typ )UPER BRIGHT ORANGE (InGaAlP S R ATER CLEA W °50ymbol l S y ym m b o S ymbo r Pa a r a m e t e P aramete ee e v i c D evic .T y p p .T yp .a x x..M ax s n i t s U nit s est Conditio s e s st t C o n d i t i o n sT Test peak eak Wav elength P e uper Bright Orang S 016m n I F =20mA D ominat e Wav elengthD euper Bright Orang S 106m n I F =20mA 1/2pectral Line Hal -width S euper Bright Orang S 92m n I F =20mA C e apacitanc C e uper Bright Orang S F p V F =0V;=1MHz V F orward Volt age F e uper Bright Orang S 1.25.2V I F =20mA I Reverse Curren tR euper Bright Orang S 01Au V R =5Varameter Pa a r a m e t e r P Paramet up er Bri gh t Orang eSu u p e r B B B r i g h O r a n g S uper Bright Orang s nit U n i t s Unit Power dissipation 57W m DC Forw ard Curren t 03A m Peak Forward Curren t [1]951A m Reverse Voltage5VOperating/Storage T emperatu re-40C T o +85CGHB-1206L-O28070015SMT Reflow Soldering InstructionsNumber of reflow process shall be less than 2 times and cooling process to normal temperature is required between first and second soldering process.Recommended Soldering Pattern(Units : mm)Tape Specifications(Units : mm)。