HSMD-A100-J00J1中文资料
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PACKAGING INFORMATIONOrderable Device Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball FinishMSL Peak Temp (3)5962-86833012A ACTIVE LCCC FK 201None Call TI Level-NC-NC-NC 5962-8683301DA ACTIVE CFP W 141None Call TI Level-NC-NC-NC JM38510/37001B2A ACTIVE LCCC FK 201None Call TI Level-NC-NC-NC JM38510/37001BCA ACTIVE CDIP J 141None Call TI Level-NC-NC-NC SN54ALS00AJ ACTIVE CDIP J 141None Call TI Level-NC-NC-NC SN54AS00J ACTIVE CDIP J 141None Call TI Level-NC-NC-NC SN74ALS00AD ACTIVE SOIC D 1450Pb-Free (RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIM SN74ALS00ADBR ACTIVE SSOP DB 142000Pb-Free (RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIM SN74ALS00ADR ACTIVE SOIC D 142500Pb-Free (RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIM SN74ALS00AN ACTIVE PDIP N 1425Pb-Free (RoHS)CU NIPDAU Level-NC-NC-NC SN74ALS00AN3OBSOLETE PDIP N 14None Call TI Call TISN74ALS00ANSR ACTIVE SO NS 142000Pb-Free (RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIM SN74AS00D ACTIVE SOIC D 1450Pb-Free (RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIM SN74AS00DR ACTIVE SOIC D 142500Pb-Free (RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIM SN74AS00N ACTIVE PDIP N 1425Pb-Free (RoHS)CU NIPDAU Level-NC-NC-NC SN74AS00NSR ACTIVE SO NS 142000Pb-Free (RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIM SNJ54ALS00AFK ACTIVE LCCC FK 201None Call TI Level-NC-NC-NC SNJ54ALS00AJ ACTIVE CDIP J 141None Call TI Level-NC-NC-NC SNJ54ALS00AW ACTIVE CFP W 141None Call TI Level-NC-NC-NC SNJ54AS00FK ACTIVE LCCC FK 201None Call TI Level-NC-NC-NC SNJ54AS00JACTIVECDIPJ141NoneCall TILevel-NC-NC-NC(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan -May not be currently available -please check /productcontent for the latest availability information and additional product content details.None:Not yet available Lead (Pb-Free).Pb-Free (RoHS):TI's terms "Lead-Free"or "Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all 6substances,including the requirement that lead not exceed 0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Green (RoHS &no Sb/Br):TI defines "Green"to mean "Pb-Free"and in addition,uses package materials that do not contain halogens,including bromine (Br)or antimony (Sb)above 0.1%of total product weight.(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDECindustry standard classifications,and peak solder temperature.28-Feb-2005Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annualbasis.28-Feb-2005IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. All products are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty. T esting and other quality control techniques are used to the extent TI deems necessary to support this warranty. Except where mandated by government requirements, testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design. Customers are responsible for their products and applications using TI components. T o minimize the risks associated with customer products and applications, customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license, either express or implied, is granted under any TI patent right, copyright, mask work right, or other TI intellectual property right relating to any combination, machine, or process in which TI products or services are used. Information published by TI regarding third-party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from TI under the patents or other intellectual property of TI.Reproduction of information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. Reproduction of this information with alteration is an unfair and deceptive business practice. TI is not responsible or liable for such altered documentation.Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids all express and any implied warranties for the associated TI product or service and is an unfair and deceptive business practice. TI is not responsible or liable for any such statements. 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TX-J1型机床电路故障维修考核装置使用说明书天津市中教仪职教仪器厂产品简介机床电气培(实)训考核(鉴定)装置,由2个前,后开门的电器柜组成。
每个柜子中配置有两块电器底板,每块电器底板的上半部和下半部各装有一台机床的整机电路,底板的中部安装有故障开关盒,每各柜子都在电源进线处安装了自动开关和漏电保护器,以保证学员的安全,在柜子的前,后部分都配有安全手灯插座,以便照明。
电动机安放在柜子的底部。
两个电器柜共配置有4台机床的整机电路,其型号为:1.CW6163B型车床,故障考核11项2.X62W型万能铣床,故障考核15项3.T68型卧式镗床,故障考核12项4.Z3050型摇臂钻床,,故障考核12项CW6163B型车床电路操作说明先将考核装置的总电源的自动开关合上闸,将CW6163B单元的自动开关QF推到闭合壮态,则车床单元完成供电操作,此时电源指示灯HL1亮。
按压主轴电机启动按钮SB3,交流接触器KM1吸合,主轴电机1M启动运转,同时工作指示灯HL2点亮,在主轴电机1M 已启动的情况下,按压冷却泵电动机启动按钮SB6,冷却泵电动机2M启动运行,按压SB5,,2M停转,按压SB1,则1M,2M同时停止,工作指示灯HL2灭。
旋动SA旋钮,照明灯EL点亮。
X62W型万能铣床电路操作说明1.主轴电动机的控制(1)先将SA4扳到主轴电动机所需要的旋转方向,然后再按启动按钮SB3来启动电动机1M(2)1M启动后,速度继电器KS的一副常开触点闭合,为主轴电动机的停转制动作好准备。
(3)停车时,按停止按钮SB1切断KM1电路,接通KM2电路,改变1M的电源相序进行串电阻反接制动。
当1M转速低于120转/分时,速度继电器KS的一副常开触点恢复断开,切断KM2电路,1M停转,制动结束。
(4)主轴电动机变速时的瞬动(冲动)控制:先扳动冲动行程开关SQ7,使其常闭触点先断开,切断KM1线圈的电路,电动机1M断电;同时SQ7的常开触点后接通,KM2得电动作,1M被反接制动。
前言感谢您使用北京佳凯中兴自动化技术有限公司生产的JK1S系列全数字单相晶闸管功率控制器。
JK1S系列全数字单相晶闸管功率控制器,采用全数字化设计,具有如下特点:z16位高级单片机作为控制核心,有丰富的参数设定、检测和完善的保护功能;z LED 数码显示,键盘参数设置,操作方便;z集成开环、恒压(恒定输出电压)、恒流(恒定输出电流)、恒功率(恒定输出功率)、调功(过零) 控制、LZ(移相-过零)控制、联机功率分配等功能于一体,使用灵活;z具有有效值(RMS)控制选件,实现真有效值的检测、控制;有效值/平均值控制可通过键盘 修改参数设定;z12位精度的A/D转换,分辨率高;z两路10位精度D/A输出,可编程模拟输出众多内部参数;z模拟量/开关量输入、输出可编程,方便用户组态;z输入、输出接口均采用隔离技术,抗干扰能力强;z调功使用时,可联机分配功率,减小对电网的冲击;z标准配置单RS485通讯接口(MODBUS RTU协议);具有扩展RS485 通讯接口(MODBUS RTU协议)、 单PROFIBUS通讯接口或双PROFIBUS通讯接口扩展选件;z广泛用于工业各领域的单相电压、电流、功率的控制、调节。
1 安全及注意事项"危险"与"注意"的定义:由于没有按要求操作,可能造成设备严重损坏或人员伤亡的场合。
由于没有按要求操作可能造成中等程度伤害或轻伤,或造成物质损失的场合。
安装、使用前请仔细阅读本手册,如不认真阅读有关说明,违反安全规定,可能影响正常使用!1.1 安装危险●控制器应安装在金属等不可燃物上,否则有发生火灾的危险。
●不要安装在含有爆炸性气体的环境里,否则有引发爆炸的危险。
●不要把易燃、易爆物品放在控制器附近,否则有引发爆炸的危险。
●不要将螺钉、垫片等金属物掉进控制器内部,否则有引发爆炸和发生火灾的危险。
注意●控制器应安装在无导电尘埃、无破坏绝缘性能的气体或蒸汽的环境中。
使用说明书MODEL 3331微电脑电导率/电阻率变送器JENCO ELECTRONICS, LTD.上海任氏电子有限公司目录简介 (2)产品检视 (2)MODEL 3331的使用 (3)A. 安装步骤 (3)B. 前面板及按键说明 (5)C. 显示 (8)D. 端子接线图 (10)E. 测量模式 (11)F. 设定模式 (12)G. 电导率/ 电阻率校正模式 (19)H. 继电器控制 (19)错误显示及原因 (21)规格 (23)质量保证 (25)- 1 -感谢您选用JENCO Model 3331,Model 3331电导率/电阻率变送器是使用单芯片微电脑设计的测试及变送器,它是包装在 1/8 DIN 的外壳里,使用于实验室与各种控制场所。
Model 3321可显示电导率、电阻率或者温度。
每次开机,整机的微处理器就会执行一次自我诊断。
该变送器具备一路隔离电流输出,其输出范围可由使用者自行设定。
小心地打开包装,检视仪器及配件是否有因运送而损坏,如有发现损坏,请即刻通知任氏的代理商,并以原包装寄回送检。
- 2 -RVIEW A. 安装步骤图一1. 在厚度1/16英寸(1.5mm)~3/8英寸(9.5mm)的安装板上开一个大小如左图的方孔。
见图一。
图二2. 先拆下固定支架,将机器放入刚开的方孔内。
见图二。
.- 3 -安装板 固定支架图三3. 装上支架,并将支架往前推紧,确保机器固定在安装板上。
见图三。
【注意】:如果不按以上方式安装仪表,可能致使仪表受到损害。
- 4 -B. 前面板及按键说明整机的显示板拥有一个四位LCD显示以及四个机械式开关。
1. [ MODE ] 键:1a. 在测量模式,按此键依次循环显示电导率值和温度值或者电阻率值和温度值。
1b. 在设定模式,按住此键三秒,整机将退回上一个设定参数。
2. [ UP ] 键:2a. 在校正模式,按此键将显示上一个校正项目。
在设定模式,按此键将显示上一个设定项目或者增加设定项目的数值。
SJA1000简介2010-3-17 5:57:00PCA82C250提供对总线的差动发送和对CAN控制器的差动接收功能,也增大了通信距离,提高了系统的瞬间抗干扰能力,保护总线,降低射频干扰(RF I),实现了热防护等功能。
发送子程序负责节点报文的发送,由CAN控制器SJA 1000独立完成,将命令寄存器里的发送请求标志置位,即可发送SJA1000发送缓冲区中的报文。
CAN总线及CAN控制器SJA1000简介CAN总线最初是德国Bosch公司在1986 年为解决现代汽车中众多的控制与测试仪器之间的数据交换而开发的一种支持分布式实时控制系统的串行数据通讯总线。
CAN总线与其它通信网的显著不同之处在于:(1)报文传送中不包含目标地址,它是以全网广播为基础,各接收站根据报文中反映数据性质的标识符过滤报文,该收的收下,不收的弃用。
其好处是可线上网下网、即插即用和多站接收。
(2)特别强化了对数据安全性的关注,满足控制系统及其它较高数据要求的系统需求。
另外CAN总线采用短帧结构,借助接收滤波的多地址帧传送,受干扰概率低,每帧信息都有CRC校验及其它检错措施。
响应远程数据请求,配置灵活,具有全系统的数据相容性。
节点数主要取决于总线驱动电路,目前最多可达110个节点。
CAN总线符合ISO11898标准,通信速率高,最大传输速率可达1Mb it/S,最大传输距离为10km,传输介质可为双绞线。
基于CAN总线以上的特点,把它应用于系统分布比较分散且需要在同一总线上挂接多个节点的场合是非常适合的。
目前广泛流行的CAN总线器件有两大类:一类是独立的CAN控制器,如PhilipS公司的PCA82C200,SJA1000及Intel82256/82257等;另一类是带有在片CAN的微控制器,如P8XC582等。
其中Philips公司的PCA82C200是符合CAN 2. 0A协议的总线控制器,SJA1000是它的替代产品,它是应用于汽车和一般工业环境的独立CAN总线控制器。
1-204HSMD-TX00HSME-TX00HSMG-TX00HSMH-TX00HSMS-TX00HSMY-TX00Device Selection GuideDH AS HighHigh AlGaAs EfficiencyPerformanceEmerald Red Red Orange Yellow Green Green HSMH-HSMS-HSMD-HSMY-HSMG-HSME-Description T400T400T400T400T400T40012 mm Tape, 7" Reel,2000 Devices T500T500T500T500T500T50012 mm Tape, 13" Reel,8000 Devices T600T600T600T600T600T6008 mm Tape, 7" Reel,2000 Devices T700T700T700T700T700T7008 mm Tape, 13" Reel,8000 DevicesSurface Mount LED Indicator Technical DataFeatures• Compatible with Automatic Placement Equipment • Compatible with Infrared and Vapor Phase Reflow Solder Processes• Packaged in 12mm or 8mm tape on 7" or 13" Diameter Reels• EIA Standard Package • Low Package Profile • Nondiffused PackageExcellent for Backlighting and Coupling to Light PipesDescriptionThese solid state surface mount indicators are designed with a flat top and sides to be easily handled by automatic placementequipment. A glue pad is provided for adhesive mounting processes.They are compatible withconvective IR and vapor phase reflow soldering and conductive epoxy attachment processes.The package size and configura-tion conform to the EIA-535BAAC standard specification for case size 3528 tantalum capacitors. The folded leadsH5964-9359Epermit dense placement and provide an external solder joint for ease of inspection.These devices are nondiffused,providing high intensity forapplications such as backlighting,light pipe illumination, and front panel indication.1-205Package DimensionsTape and Reel SpecificationsHewlett Packard surface mount LEDs are packaged tape and reel in accordance with EIA-481A,Taping of Surface MountComponents for Automatic Placement . This packaging system is compatible with tape-fed automatic pick and place systems. Each reel is sealed in avapor barrier bag for added protection. Bulk packaging in vapor barrier bags is availableupon special request.Absolute Maximum Ratings at T A = 25°CDH AS High HighAlGaAs Efficiency Perf.Emerald Parameter Red Red Orange Yellow Green Green Units DC Forward303030303030mA Current[1]Peak Forward3009090609090mA Current[2]Average202525202525mA ForwardCurrent[2]LED Junction95°C TemperatureTransientForwardCurrent[3](10 µs Pulse)500mA Reverse Voltage5V (I R = 100 mA)Operating-40 to +85-20 to +85°C TemperatureRangeStorage-40 to +85°C TemperatureRangeReflow SolderingTemperatureConvective IR235°C Peak, above 185°C for 90 seconds.Vapor Phase 215°C for 3 minutes.Notes:1. Derate dc current linearly from 50°C: For AlGaAs red, high efficiency red, and green devices at 0.67 mA/°C. For yellow devices at0.44mA/°C.2. Refer to Figure 5 showing Maximum Tolerable Peak Current vs. Pulse duration to establish pulsed operating conditions.3. The transient peak current is the maximum non-recurring peak current the device can withstand without damaging the LED die andwire bond. The device should not be operated at peak currents above the Absolute Maximum Peak Forward Current.1-2061-207DH AS AlGaAs Red HSMH-TX00ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity I v 9.017.0mcd I F = 10 mA Forward VoltageV F 1.8 2.2V I F = 10 mA Reverse Breakdown Voltage V R 5.015.0V I R = 100 µAIncluded Angle Between Half Intensity Points [1]2θ1/2120deg.Peak Wavelength λPEAK 645nm Dominant Wavelength [2]λd 637nm Spectral Line Half Width ∆λ1/220nm Speed of Response τs 30ns Time Constant, e -t/τCapacitance C 30pF V F = 0, f = 1 MHz Thermal Resistance R θJ-pin 180°C/W Junction-to-Cathode Luminous Efficacy [3]ηv80lm/WHigh Efficiency Red HSMS-TX00ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity I v 2.06.0mcd I F = 10 mA Forward VoltageV F 1.9 2.5V I F = 10 mA Reverse Breakdown Voltage V R 5.030.0V I R = 100 µAIncluded Angle Between Half Intensity Points [1]2θ1/2120deg.Peak Wavelength λPEAK 635nm Dominant Wavelength [2]λd 626nm Spectral Line Half Width ∆λ1/240nm Speed of Response τs 90ns Time Constant, e -t/τCapacitance C 11pF V F = 0, f = 1 MHz Thermal Resistance R θJ-pin 160°C/W Junction-to-Cathode Luminous Efficacy [3]ηv145lm/WNotes:1. θ1/2 is the off-axis angle where the luminous intensity is half the on-axis value.2. The dominant wavelength, λd , is derived from the CIE Chromaticity Diagram and represents the color of the device.3. The radiant intensity, I e , in watts per steradian, may be found from the equation I e = I v / ηv , where I v is the luminous intensity in candelas and ηv is luminous efficacy in lumens/watt.Electrical/Optical Characteristics at T A = 25°Cs s1-208Orange HSMD-TX00ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity I v 1.55.0mcd I F = 10 mA Forward VoltageV F 1.9 2.5V I F = 10 mA Reverse Breakdown Voltage V R 5.030.0V I R = 100 µAIncluded Angle Between Half Intensity Points [1]2θ1/2120deg.Peak Wavelength λPEAK 600nm Dominant Wavelength [2]λd 602nm Spectral Line Half Width ∆λ1/240nm Speed of Response τs 260ns Time Constant, e -t/τCapacitance C 4pF V F = 0, f = 1 MHz Thermal Resistance R θJ-pin 160°C/W Junction-to-Cathode Luminous Efficacy [3]ηv380lm/WYellow HSMY-TX00ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity I v 2.05.0mcd I F = 10 mA Forward VoltageV F 2.0 2.5V I F = 10 mA Reverse Breakdown Voltage V R 5.050.0V I R = 100 µAIncluded Angle Between Half Intensity Points [1]2θ1/2120deg.Peak Wavelength λPEAK 583nm Dominant Wavelength [2]λd 585nm Spectral Line Half Width ∆λ1/236nm Speed of Response τs 90ns Time Constant, e -t/τCapacitance C 15pF V F = 0, f = 1 MHz Thermal Resistance R θJ-pin 160°C/W Junction-to-Cathode Luminous Efficacy [3]ηv500lm/WNotes:1. θ1/2 is the off-axis angle where the luminous intensity is half the on-axis value.2. The dominant wavelength, λd , is derived from the CIE Chromaticity Diagram and represents the color of the device.3. The radiant intensity, I e , in watts per steradian, may be found from the equation I e = I v / ηv , where I v is the luminous intensity in candelas and ηv is luminous efficacy in lumens/watt.s s1-209High Performance Green HSMG-TX00ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity I v 4.010.0mcd I F = 10 mA Forward VoltageV F 2.0 2.5V I F = 10 mA Reverse Breakdown Voltage V R 5.050.0V I R = 100 µAIncluded Angle Between Half Intensity Points [1]2θ1/2120deg.Peak Wavelength λPEAK 570nm Dominant Wavelength [2]λd 572nm Spectral Line Half Width ∆λ1/228nm Speed of Response τs 500ns Time Constant, e -t/τCapacitance C 18pF V F = 0, f = 1 MHz Thermal Resistance R θJ-pin 160°C/W Junction-to-Cathode Luminous Efficacy [3]ηv595lm/WNotes:1. θ1/2 is the off-axis angle where the luminous intensity is half the on-axis value.2. The dominant wavelength, λd , is derived from the CIE Chromaticity Diagram and represents the color of the device.3. The radiant intensity, I e , in watts per steradian, may be found from the equation I e = I v / ηv , where I v is the luminous intensity in candelas and ηv is luminous efficacy in lumens/watt.Emerald Green HSME-TX00ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity I v 1.01.5mcd I F = 10 mA Forward VoltageV F 2.2 2.27V I F = 10 mA Reverse Breakdown Voltage V R 5.050.0V I R = 100 µAIncluded Angle Between Half Intensity Points [1]2θ1/2120deg.Peak Wavelength λPEAK 558nm Dominant Wavelength [2]λd 560nm Spectral Line Half Width ∆λ1/228nm Speed of Response τs 500ns Time Constant, e -t/τCapacitance C 52pF V F = 0, f = 1 MHz Thermal Resistance R θJ-pin 120°C/W Junction-to-Cathode Luminous Efficacy [3]ηv680lm/WNotes:1. θ1/2 is the off-axis angle where the luminous intensity is half the on-axis value.2. The dominant wavelength, λd , is derived from the CIE Chromaticity Diagram and represents the color of the device.3. The radiant intensity, I e , in watts per steradian, may be found from the equation I e = I v / ηv , where I v is the luminous intensity in candelas and ηv is luminous efficacy in lumens/watt.4. Refer to Application Note 1061 for information comparing high performance green with emerald green light output degradation.s s1-210V – FORWARD VOLTAGE – V FI – F O R W A R D C U R R E N T – m AF Figure 1. Relative Intensity vs. Wavelength.Figure 2. Forward Current vs. Forward Voltage.Figure 3. Relative Luminous Intensity vs. Forward Current.300280260240220200180160140120100804020V – FORWARD VOLTAGE – V FI – F O R W A R D C U R R E N T – m AF DH AS AlGaAs RED3.02.52.01.51.00.50.0I – DC FORWARD CURRENT – mA FR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 10 m A )DH AS AlGaAs RED4.03.02.01.00.0I – DC FORWARD CURRENT – mAFR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 10m A )WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.00.50500550600650700750HER, ORANGE, YELLOW,HIGH PERFORMANCE GREEN AND EMERALD GREENHER, ORANGE, YELLOW,HIGH PERFORMANCE GREEN AND EMERALD GREEN1-211Figure 6. Relative Intensity vs. Angular Displacement.Figure 5. Maximum Tolerable Peak Current vs. Pulse Duration (I DC MAX per MAX Ratings).ηv – R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D A T 10 m A )I PEAK – PEAK FORWARD CURRENT – mA307010509020608040HER, ORANGE, YELLOW,HIGH PERFORMANCE GREEN AND EMERALD GREENHER, ORANGE, YELLOW,HIGH PERFORMANCE GREEN AND EMERALD GREENFigure 4. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current.。
深圳市明烽威电子有限公司HCPL-4506-300E AVAGO HCPL-0600-500E AVAGOHCPL-4506-500E AVAGO HEDS-9701#C54AVAGOHCPL-4534-000E AVAGO TLC04CP TIHCPL-4534-300E AVAGO X9313WSZ-3T1INTERSILHCPL-4534-500E AVAGO TMS320LF2402APGA TIHCPL-4562-000E AVAGO TMS320LF2406APZA TIHCPL-4562-300E AVAGO AD9910BSVZ ADIHCPL-4562-500E AVAGO AD9957BSVZ ADIHCPL-4661-000E AVAGO TLV320AIC33IRGZ TIHCPL-4661-300E AVAGO TLV320AIC33IZQER TIHCPL-4661-500E AVAGO TPS54616PWPR TIHCPL-4731-000E AVAGO OPA551PA TIHCPL-4731-300E AVAGO DS1813R-15+DALLASHCPL-4731-500E AVAGO TPS7333QDR TIHCPL-7510-000E AVAGO OPA277UA TIHCPL-7510-300E AVAGO LM1877MX-9NSHCPL-7510-500E AVAGO ISO7221BDR TIHCPL-7520-000E AVAGO TL16C550CIPTR TIHCPL-7520-300E AVAGO MAX9324EUP+MAXIMHCPL-7520-500E AVAGO MAX1706EEE-T MAXIMHCPL-7560-000E AVAGO TPS75733KTTR TIHCPL-7560-300E AVAGO LM2674MX-ADJ NSHCPL-7560-500E AVAGO ADS8321EB TIHCPL-7611-000E AVAGO ADS8320EB TIHCPL-7611-300E AVAGO W29C040T-90B WINBONDHCPL-7611-500E AVAGO ISO124U TIHCPL-7710-000E AVAGO FM25L04B-GTR RAMTRONHCPL-7710-300E AVAGO TLE2084CN TIHCPL-7710-500E AVAGO TL317CDR TIHCPL-7720-000E AVAGO MAX354CPE+MAXIMHCPL-7720-300E AVAGO MAX354EPE+MAXIMHCPL-7720-500E AVAGO DEI0429-WMB DEIHCPL-7721-000E AVAGO AT91SAM7SE512-AU atmelHCPL-7721-300E AVAGO EL1881CSZ-T7INTERSILHCPL-7721-500E AVAGO SN74ACT2440FNR TIHCPL-7723-000E AVAGO MT4LC8M8C2P-5MICRONHCPL-7723-300E AVAGOHCPL-7800-000E AVAGOHCPL-7800-300E AVAGOHCPL-7800-500E AVAGOHCPL-7800A-000E AVAGOHCPL-7800A-300E AVAGOHCPL-7800A-500E AVAGOHCPL-7840-000E AVAGOHCPL-7840-300E AVAGOHCPL-7840-500E AVAGOHCPL786J-000E AVAGO HCPL-786J-000E AVAGO HCPL786J-300E AVAGO HCPL-786J-300E AVAGO HCPL786J-500E AVAGO HCPL-786J-500E AVAGO HCPL788J-000E AVAGO HCPL-788J-000E AVAGO HCPL788J-300E AVAGO HCPL-788J-300E AVAGO HCPL788J-500E AVAGO HCPL-788J-500EHCPL-817-000EHCPL-817-00AEHCPL-817-00BEHCPL-817-00CEHCPL-817-00DEHCPL-817-00LEHCPL-817-060EHCPL-817-06AEHCPL-817-06BEHCPL-817-06CEHCPL-817-06DEHCPL-817-06LEHCPL-817-300EHCPL-817-30AEHCPL-817-30BEHCPL-817-30CEHCPL-817-30DEHCPL-817-30LEHCPL-817-360EHCPL-817-36AEHCPL-817-36BEHCPL-817-36CEHCPL-817-36DEHCPL-817-36LEHCPL-817-500EHCPL-817-50AEHCPL-817-50BEHCPL-817-50CEHCPL-817-50DEHCPL-817-50LEHCPL-817-560EHCPL-817-56AEHCPL-817-56BEHCPL-817-56CEHCPL-817-56DEHCPL-817-56LEHCPL-9000-000E AVAGO DRV101FKTWT TIHCPL-9000-300E AVAGO DRV101F TIHCPL-9000-500E AVAGO UCC5638FQPR TIHCPL-902J-000E AVAGO TLV320AIC3204IRHBT TIHCPL-902J-300E AVAGO TLV320AIC3204IRHBR TIHCPL-902J-500E AVAGO TLV5625CDR TIHCPL-J312-000E AVAGO TLV5625IDR TIHCPL-J312-300E AVAGO TLV320AIC3104IRHBT TIHCPL-J312-500E AVAGO TLV320AIC3104IRHBR TIHCPL-J456-000E AVAGO AT45DB041D-SU ATMEL HCPL-J456-300E AVAGO MAX6657MSA+T MAXIM HCPL-J456-500E AVAGO HCPL-J454-000E AVAGO HCPL-M453-000E AVAGO HCPL-J454-300E AVAGO HCPL-M453-300E AVAGO HCPL-J454-400E AVAGO HCPL-M453-500E AVAGO HCPL-J454-500E AVAGO HCPL-M454-000E AVAGO HCPL-J454-600E AVAGO HCPL-M454-300E AVAGO TC7660IJA MICROCHIP HCPL-M454-500E AVAGO TC7660MJA MICROCHIP HCPL-M456-000E AVAGO ADT7460ARQZ ADIHCPL-M456-300E AVAGO ADSP-21065LKCA264ADIHCPL-M456-500E AVAGO ADSP-21065LKCAZ264ADI HCPL-M600-000E AVAGO AD7859ASZ ADI HCPL-M600-300E AVAGO MJD45H11G ONHCPL-M600-500E AVAGO TPD3E001DRLR TIHCPL-M601-000E AVAGO XTR116U TIHCPL-M601-300E AVAGO DS1233-5+DALLAS HCPL-M601-500E AVAGO TRU050GALGA32.0000/16.00Vectron HCPL-M611-000E AVAGO TRU050GACCA28.7040/14.35Vectron HCPL-M611-300E AVAGO AD9516-3BCPZ ADI HCPL-M611-500E AVAGO REF3125AIDBZT TIHCPL-M700-000E AVAGO REF3125AIDBZR TIHCPL-M700-300E AVAGO AD8592ARMZ ADI HCPL-M700-500E AVAGO QCPL-034H-500E AVAGOHD6413079F18HIT AD9865BCPZ ADI HDMP1636A AVAGO QCPL-312H-500E AVAGO HDMP-1636A AVAGO M74VHC1G135DFT1G ONHDMP-1637A AVAGO HSMD-A100-J00J1AVAGO HDMP1638AVAGO LT1587CT LTHDMP-1638AVAGO AD827JRZ-16ADI HEDS9710-R50AVAGO HSMP-389F-BLKG AVAGO HEDS-9710-R50AVAGO HSMP-389F-TR1G AVAGO HEL22MICREL HSMP-389F-TR2G AVAGO HEL23MICREL XC3064A-7PC84C XILINX HFBR-1414Z AVAGO XC3064A-7PC84I XILINX HFBR-1414TZ AVAGO Si7703EDN-T1-E3VISHAY HFBR-1521Z AVAGO Si7703EDN-T1-GE3VISHAYT-1521Z AVAGO Si7703EDN-T1-GE3ADIT-1521ETZ AVAGO AD605ARZ ADIHFBR-1521ETZ AVAGO MACH110-15JC AMDT-1522Z AVAGO MACH210-20JC AMDT-1522ETZ AVAGO LTC4213IDDB LINEAR HFBR-1522ETZ AVAGO DS1233-15+DALLAS HFBR1522Z AVAGO LTC3412EFE LINEAR HFBR-1522Z AVAGO MAX513ESD+T MAXIM HFBR1523Z AVAGO MAX3681EAG+MAXIM HFBR-1523Z AVAGO ICS1893CKILF IDT HFBR1528Z AVAGO TMS32C6416DGLZA5E0TI HFBR-1528Z AVAGO TMS32C6416EGLZ5E0TI HFBR-1531Z AVAGO TMS32C6416EGLZ6E3TI HFBR-1531ETZ AVAGO TMS32C6416EGLZ7E3TI HFBR-2531ETZ AVAGO TMS32C6416EGLZA5E0TI 1531ETZ AVAGO TMS32C6416EGLZA6E3TI 2531ETZ AVAGO AD829JRZ ADI HFBR1532Z AVAGO MAX14830ETM+MAXIM HFBR-1532Z AVAGO MX69GL128EAXGW-90G MXIC HFBR-1532ETZ AVAGO AD7811YRUZ ADI HFBR1533Z AVAGO TPS76318DBVR TI HFBR-1533Z AVAGO ADMP421ACEZ ADI HFBR-2412TZHFBR-2412ZHFBR2416TZHFBR-2416TZHFBR-2521Z AVAGO LT1304CS8Linear R-2521Z AVAGO MAX16801BEUA+T maxim R-2521ETZ AVAGO ACPL-M61L-500E AVAGO HFBR-2521ETZ AVAGO DS26503LN+DALLAS HFBR-2522Z AVAGO MAX9205EAI+T MAXIM R-2522Z AVAGO TMP105YZCT TIR-2522ETZ AVAGO TMP105YZCR TI HFBR-2522ETZ AVAGO AD5821BCBZ ADI HFBR-2523Z AVAGO PM5347-RI PMC HFBR-2528Z AVAGO PM73121-RI PMC HFBR-2531Z AVAGO TPA4411RTJT TI HFBR-2532Z AVAGO TPA4411RTJR TI HFBR-2532ETZ AVAGO LTC1438CG-ADJ Linear HFBR-2533Z AVAGO LTC1438IG-ADJ Linear HFBR-4501Z AVAGO DS1318E+DALLAS HFBR-4503Z AVAGO TMS320DM643AGDK5TI HFBR-4506Z AVAGO ACPL-M75L-000E AVAGO HFBR-4511Z AVAGO ACPL-M75L-060E AVAGO HFBR-4513Z AVAGO ACPL-M75L-500E AVAGO HFBR-4516Z AVAGO ACPL-M75L-560E AVAGO HFBR-4525Z AVAGO ACPL-T350-000E AVAGO HFBR-4526Z AVAGO ACPL-T350-060E AVAGO HFBR-4531Z AVAGO ACPL-T350-300E AVAGO HFBR-4532Z AVAGO ACPL-T350-360E AVAGOHFBR-4533Z AVAGO ACPL-T350-500E AVAGO HFBR-4535Z AVAGO ACPL-T350-560E AVAGO HFBR-4593Z AVAGO ADXRS620BBGZ ADI HFBR-4597Z AVAGO LT1521CS8Linear HFBR-EUD100Z AVAGO LT1521CS8-3.3Linear HFBR-EUD500Z AVAGO LT1521IS8Linear HFBR-EUS100Z AVAGO LT1521IS8-3.3Linear HFBR-EUS500Z AVAGO MAX6835VXSD3+T MAXIM HFBR-RUD100Z AVAGO AD9059BRSZ ADI HFBR-RUD500Z AVAGO HFBR-4515Z AVAGO HFBR-RUS100Z AVAGO HFBR-57E0PZ AVAGO HFBR-RUS500Z AVAGO HFCT-53D5EMZ AVAGO HG88510MITEL HFCT-5611AVAGOHI1-508-5HAR LT1242CS8Linear HI1-509-5HAR LT1242IS8Linear HM628512ALFP-5日立LT1140ACSW LinearHM628512BLFP-5日立AFBR-2419TZ AVAGO HS1101HUMIREL AD7156BCPZ ADIHS6118MACONICS ADP151ACBZ-2.8ADI HSDL-3201#021AVAGO DS1805Z-010+MAXIM HSDL-3201#001AVAGO TLP285-4GB TOSHIBA HSDL-3209-021AVAGO AD421BRZ ADI HSDL-7001#100AVAGO OPA2336PA TI HSDL-7002AVAGO ADUC812BSZ ADI HSMP-3814-BLKG AVAGO STPS6045CW ST HSMP-3814-TR1G AVAGO SG-3030JF EPSON HSMP-3814-TR2G AVAGO MPC8313VRAFFB FREESCAL HSMP-3822-BLKG AVAGO MAX1617AMEE+T maxim HSMP-3822-TR1G AVAGO MCP809M3X-4.63NS HSMP-3822-TR2G AVAGO MCP809M3X-4.38NS HSMP-3823-BLKG AVAGO MCP809M3X-4.00NS HSMP-3823-TR1G AVAGO MCP809M3X-3.08NS HSMP-3823-TR2G AVAGO MCP809M3X-2.93NS HSMP-3824-BLKG AVAGO MCP809M3X-2.63NS HSMP-3824-TR1G AVAGO MCP810M3X-4.63NS HSMP-3824-TR2G AVAGO MCP810M3X-4.38NS HSMP-3832-BLKG AVAGO MCP810M3X-4.00NS HSMP-3832-TR1G AVAGO MCP810M3X-3.08NS HSMP-3832-TR2G AVAGO MCP810M3X-2.93NS HSMP-3860-BLKG AVAGO MCP810M3X-2.63NS HSMP-3860-TR1G AVAGO LT1317BCS8Linear HSMP-3860-TR2G AVAGO LT1317BIS8Linear HSMP-3862-BLKG AVAGO LTC1757A-1EMS8Linear HSMP-3862-TR1G AVAGO ACPL-K342-000E AVAGO HSMP-3862-TR2G AVAGO ACPL-K342-500E AVAGO HSMP-3880-BLKG AVAGO AFBR-57M5APZ AVAGO HSMP-3880-TR1G AVAGO CY7C144AV-25AIT CY HSMP-3880-TR2G AVAGO CY7C144AV-25ACT CYHSMP-3892-BLKG AVAGO CY7C144AV-25AXIT CY HSMP-3892-TR1G AVAGO CY7C144AV-25AXCT CY HSMP-3892-TR2G AVAGO ABA-54563-TR1G AVAGO HSMP-389L-BLKG AVAGO ABA-54563-TR2G AVAGO HSMP-389L-TR1G AVAGO ABA-54563-BLKG AVAGO HSMP-389L-TR2G AVAGO LT1138ACG Linear HSMS-2812-BLKG AVAGO LT1138AIG Linear HSMS-2812-TR1G AVAGO ISL8120IRZ INTERSIL HSMS-2812-TR2G AVAGO ISL8120CRZ INTERSIL HSMS-2817-BLKG AVAGO LTC1421IG-2.5Linear HSMS-2817-TR1G AVAGO LTC1421CG-2.5Linear HSMS-2817-TR2G AVAGO MSC1212Y5PAGT TI HSMS-282K-BLKG AVAGO MSC1212Y5PAGR TI HSMS-282K-TR1G AVAGO TPS7330QDR TI HSMS-282K-TR2G AVAGO ADP3110KRZ ADI HSMS-2850-BLKG AVAGO MAX3263CAG MAXIM HSMS-2850-TR1G AVAGO MAX1729EUB MAXIM HSMS-2850-TR2G AVAGO MAX1651CSA MAXIM HSMS-8202-BLKG AVAGO AD876JR ADI HSMS-8202-TR1G AVAGO MAX1701EEE MAXIM HSMS-8202-TR2G AVAGO Si4201-BMR silicon HT2012-PL SMAR DS12C887+DALLAS HY62256ALT1-70HY LM236DR-2.5TIHY628100BLLG-70HY DS1722U DALLAS HY628100BLLG-70I HY LM7372MRX NSHY628400ALLG-55HY MAX490ESA+T MAXIM HY628400ALLG-70HY HSMS-2822-TR1G AVAGO HY62WT08081E-DG70C HY HSMP-389C-TR1G AVAGO HY62WT08081E-DG70I HY HSMP-389C-BLKG AVAGO ICL232IPE HAR HSMP-389C-TR2G AVAGO ICS8432DY-101ICS MC33375D-3.3R2G ONICS85322AM ICS AFBR-1529Z AVAGO ICS9112M-16ICS AFBR-2529Z AVAGO IDT75K62134S200BB IDT AFBR-1629Z AVAGO ILX139K SONY HSMS-2828-TR1G AVAGO IMP560ESA IMP TPS7101QDR TIIMP809JEUR-T IMP AFBR-57R5APZ AVAGO IMP809LEUR-T IMP UC3875DWPTR TIIMP809MEUR-T IMP ASSR-1510-503E AVAGO IMP809REUR-T IMP ASSR-1510-003E AVAGO IMP809SEUR-T IMP CY7B9514V-AC CYIMP809TEUR-T IMP MAX4450EXK+T MAXIM IMP810JEUR-T IMP SN75976A1DLR TIIMP810LEUR-T IMP ADUC831BSZ ADIIMP810MEUR-T IMP LTC1348IG LINEAR IMP810REUR-T IMP MSA-2111-TR1G AVAGO IMP810SEUR-T IMP DS1621S+T DALLAS IMP810TEUR-T IMP MAX485EESA+T MAXIMIMP811JEUS-T IMP MAX9669ETI+T MAXIM IMP811LEUS-T IMP MSA-0711-TR1G AVAGO IMP811MEUS-T IMP ACPL-P480-500E AVAGO IMP811REUS-T IMP HSMS-2800-TR1G AVAGO IMP811SEUS-T IMP LTC1622IS8LINEAR IMP811TEUS-T IMP MAX2102CWI MAXIM ACPL-312T-500E AVAGO X24165S-2.7T1XICOR ACPL-H342-560E AVAGO X84129SI-2.5T1XICOR ACPL-H342-500E AVAGO HCNW4502-500E AVAGO ACPL-H342-060E AVAGO HCNW4502-300E AVAGO ACPL-H342-000E AVAGO AD811ARZ-16ADI ACPL-K63L-500E AVAGO TOCP155TOSHIBA ACPL-K63L-560E AVAGO TOCP200TOSHIBA ACPL-K63L-000E AVAGO HFBR-14E4Z AVAGO AFBR-5803AQZ AVAGO HFBR-24E2Z AVAGO ASSR-4128-502E AVAGO ALM-2412-TR1G AVAGO HSMH-C680AVAGO TLV320DAC23GQER TIWS1403-TR1AVAGO CY2509ZXC-1T CYLST2825-T-SC AGILENT ACPL-312T-300E AVAGO MAX853ESA+T MAXIM MAX3814CHJ+T MAXIM。
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深圳市杰美康机电有限公司版本编写核准V1.1研发部研发部1目录前言 (1)目录 (2)第一章安全注意事项 (6)1.1接收及安装注意事项 (6)1.2配线注意事项 (6)1.3操作及运行注意事项 (7)1.4维护及检查注意事项 (7)第二章产品介绍 (8)2.1伺服驱动器 (8)2.1.1概述 (8)2.1.2主要特点 (8)2.1.3驱动器规格 (9)2.1.4伺服驱动器型号说明及铭牌内容 (11)2.2伺服电机 (12)2.2.1概述 (12)2.2.2主要特点 (12)2.2.3伺服电机型号说明及铭牌内容 (13)2.3伺服控制系统与主电源回路连接 (15)2.3.1伺服控制系统配线图 (15)2.3.2主电源回路连接 (16)第三章端口说明及配线 (17)3.1伺服驱动器各端口分布 (17)3.2伺服驱动器CN1控制端口说明 (18)3.2.1CN1控制端口定义 (18)3.2.2CN1控制端口连接说明 (20)3.2.3抱闸控制连接示意图 (21)3.3驱动器CN2编码器端口说明 (22)3.3.11394-6P编码器接头说明 (22)23.4驱动器CN3/CN4端口说明 (23)3.5驱动器CN5端口说明 (23)3.6200W/400W电源及电机动力线端口说明 (24)第四章安装说明 (25)4.1安装尺寸 (25)4.2安装使用环境 (27)第五章面板显示说明及设置 (28)5.1面板各部分功能介绍 (28)5.2操作模式的切换流程 (29)5.3状态显示 (30)5.4参数设置写入及保存方法 (31)第六章控制方式及设定 (32)6.1位置控制 (32)6.1.1位置控制接线图 (32)6.1.3位置控制模式参数说明 (34)6.1.4电子齿轮比计算举例 (35)6.2速度控制 (38)6.2.1速度控制接线图 (38)6.2.2速度控制模式参数说明 (39)6.3转矩控制 (40)6.3.1转矩控制接线图 (40)6.3.2转矩控制模式参数说明 (41)第七章试运行及参数调整 (42)7.1试运行 (42)7.1.1运行前检测 (42)7.1.2空载试运行测试 (43)7.2参数调整 (45)7.3手动增益调整 (47)7.3.1基本参数 (47)37.3.2增益切换 (49)7.3.3前馈功能 (50)7.3.4扰动观测器 (51)7.3.5共振抑制 (52)第八章参数与功能 (56)8.1参数一览表 (56)8.2参数说明 (64)8.2.1P00-xx电机及驱动器参数 (64)8.2.2P01-xx主控制参数 (67)8.2.3P02-xx增益类参数 (69)8.2.4P03-xx位置参数 (74)8.2.5P04-xx速度参数 (77)8.2.6P05-xx转矩参数 (79)8.2.7P06-xx I/O参数 (80)8.2.8P08-xx高级功能参数 (83)8.3监控项目一览表 (85)8.4辅助功能 (87)第九章故障分析及处理 (90)9.1故障报警信息表 (90)9.2故障报警原因与处置 (91)第十章通讯 (96)10.1Modbus通讯参数设定 (96)10.2Modbus通讯支持读写参数设定 (96)10.3Modbus通讯协议总概 (98)10.3.1引言 (98)10.3.2通信包 (99)10.3.3从地址和发送请求 (99)10.4功能号 (99)10.4.1功能号03:读保持寄存器 (100)410.4.2功能号06:调整单个寄存器 (101)10.4.3功能号10:调整寄存器 (101)10.4.4数据起始地址 (102)10.5死区时间 (102)10.6例外程序的响应 (103)第十一章特殊功能使用说明 (104)11.1原点复归功能 (104)11.1.1功能描述 (104)11.1.2伺服基本设置与说明 (104)11.1.3原点复归使用注意事项 (105)11.2绝对式编码器使用 (106)11.2.1功能描述 (106)11.2.2基于MODBUS通讯伺服基本设置与说明 (106)11.2.3基于MODBUS通讯绝对数据地址 (107)11.2.4绝对式编码器相关报警处理 (107)11.2.5绝对式编码器电池更换 (107)11.3多圈绝对式原点回归功能 (108)11.3.1功能描述 (108)11.3.2伺服基本设置与说明 (108)11.3.3原点设定 (108)11.3.4原点回归启动 (109)56第一章安全注意事项为防止危害人身及财产安全,请务必遵守以下注意事项,特做以下标记以示区分:危险表示极有可能引发死亡或重大伤害注意表示极有可能引发轻伤或危害财产安全表示禁止实施项1.1接收及安装注意事项危险:1、请依照指定的方式搭配驱动器及电机使用,否则会引起设备损害或引发火灾。
Agilent HSMx-A10x-xxxxx PLCC-2 SMT LEDProduct BriefBackgroundAn industry leader in high brightness LED technology, Agilent Technologies offers a wide range of surface-mount (SMT) LEDs, including Subminia-ture lamps, ChipLEDs and High flux LEDs. As more applications demand SMT LEDs, we have introduced the Agilent PLCC-2 SMT LEDs. These new products deliver top emission in the industry-standard PLCC-2 package.About the productsThis surface-mount LED comes in PLCC-2 standard package dimension. It has a substrate made up of a molded plastic reflector sitting on top of a bent lead frame. The die is attached within the reflector cavity and the cavity is encapsulated by an Agilent proprietary epoxy blend.The PLCC-2 SMT LED productswith a viewing angle of 120° isideal for instruments/switch/iconbacklighting. Its external reflec-tor makes easy coupling withlight pipe/light guide for an even-larger area backlighting. Thepackage design coupled withcareful selection of componentmaterials allow these productsto perform with high reliability ina larger temperature range -40°Cto 100°C. The high reliabilityfeature is crucial to AutomotiveInterior and Indoor ESS.This package is also designed tobe compatible with bothIR-solder reflow andthrough-the-wave soldering.The new Agilent TLED will carrythe part number HSMx-A10x-xxxxx.Features and Benefits•Industry Standard PLCC-2 SMTpackage–No change in existing boardlayout, drop-in replacement forthe existing PLCC-2 SMT LEDs•High brightness using AlInGaP andInGaN dice technologies–Only supplier using TS AlInGaPmaterial•Available in multiple colors–Broad range of colors: Red, Red-Orange, Orange, Amber, Yellow-Green, Emerald Green, Green,Cyan and Blue•Super wide viewing angle at 120°–Well-suited for backlightingapplications•High volume, high reliability–Cost effective solution•Compatible with both IR and TTWsoldering process•Black reflector surface–for reduce contrast in ESS•High brightness performance – onlyPLCC-2 SMT LED supplier offeringTS AlInGaP materialPart Numbers and Typical Product PerformancePart NumberColorDominantViewing Intensity, Iv @ 20mA Vf @ 20mAWavelength λD Angle Min Typ Typical (nm)2θ1/2 (°)(mcd)(mcd)(V)HSMS-A100-J00J1GaP Red 626120415 2.2HSMH-A100-L00J1AS AlGaAs Red 6371201050 1.9HSMC-A100-Q00J1AS AlInGaP Red 62612063100 1.9HSMZ-A100-R00J1TS AlInGaP Red 630120100400 2.2HSMJ-A100-Q00J1AS AlInGaP Red Orange 61512063200 1.9HSMV-A100-R00J1TS AlInGaP Red Orange 617120100350 2.2HSMD-A100-J00J1GaP Orange 602120415 2.2HSML-A100-Q00J1AS AlInGaP Orange 60512063160 1.9HSMY-A100-J00J1GaP Amber 585120415 2.2HSMA-A100-Q00J1AS AlInGaP Amber 59012063100 1.9HSMU-A100-R00J1TS AlInGaP Amber 592120100270 2.2HSMG-A100-J02J1GaP Yellow 569120418 2.2HSMG-A100-H01J1GaP Emerald Green 560120 2.58 2.2HSMM-A100-S00J1InGaN Green 525120160280 3.7HSMK-A100-S00J1InGaN Cyan 505120160280 3.5HSMB-A100-J00J1GaN Blue 462120415 4.0HSMN-A100-P00J1InGaN Blue47012040703.5Notes:1.The luminous intensity l V , is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation pattern may not be aligned with this axis.2.The dominant wavelength, λD , is derived from the CIE Chromaticity Diagram and represents the color of the device.3.θ1/2 is the off-axis angle where the luminous intensity is 1/2 the peak intensity.Special Product Features and Benefits •Mold Clamp–provides highest reliability performance by eliminating leadframe-epoxy delamination after solder reflow •Reflector Step Down–perfect SMT pick-up due to epoxy overfill being eliminated•Package Bottom Chamfer–perfect lead forming giving high reliability performance (no lead over-formed), and no “tomb-stoning ” defect after solder reflow Target Markets and Applications •Interior automotive–Instrument panel backlighting –Central console backlighting –Cabin backlightingFor product information and a complete list of Agilent contacts and distributors, please go to our web site./semiconductorsE-mail: SemiconductorSupport@ Data subject to change.Copyright © 2002 Agilent Technologies, Inc.February 13, 20025988-5616EN•Electronic Signs and Signals –Interior full color sign –Variable message sign •Office Automation, Electrical Appliances, Industrial Equipment –Front panel backlighting –Push button backlighting –Display backlighting。
DescriptionThis family of SMT LEDs is packaged in the industry standard PLCC-2 package. These SMT LEDs have high reliability performance and are designed to work under a wide range of environmental conditions. This high reliability feature makes them ideally suited to be used under harsh interior automotive as well as interior signs application conditions.To facilitate easy pick & place assembly, the LEDs are packed in EIA-compliant tape and reel. Every reel will be shipped in single intensity and color bin, except red color, to provide close uniformity.These LEDs are compatible with IR solder reflow process. Due to the high reliability feature of these products, they can also be mounted using through-the-wave soldering process.The super wide viewing angle at 120˚ makes these LEDs ideally suited for panel, push button, or general backlighting in automotive interior, office equipment, industrial equipment, and home appliances. The flat top emitting surface makes it easy for these LEDs to mate with light pipes. With the built-in reflector pushing up the intensity of the light output, these LEDs are also suitable to be used as LED pixels in interior elec-tronic signs.Features• Industry standard PLCC-2 package • High reliability LED package• High brightness using AlInGaP and InGaN dice tech-nologies • Available in full selection of colors • Super wide viewing angle at 120˚• Available in 8 mm carrier tape on 7 inch reel (2000 pieces)• Compatible with both IR and TTW soldering processApplications• Interior automotive– Instrument panel backlighting – Central console backlighting – Cabin backlighting • Electronic signs and signals – Interior full color sign – Variable message sign• Office automation, home appliances, industrial equipment– Front panel backlighting – Push button backlighting – Display backlightingHSMx-A10x-xxxxx PLCC-2Surface Mount LED IndicatorData SheetCAUTION: HSMN,M,K and E-A10x-xxxxx LEDs are Class 2 ESD sensitive. Please observe appropriate precau-tions during handling and processing. Refer to Avago Application Note AN-1142 for additional details.Package Dimensions(ANODE MARKING FOR AlGaAs DEVICES)TOP MOUNTREVERSE MOUNTNOTE: ALL DIMENSIONS IN MILLIMETERS.Device Selection GuideRedPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMS-A100-J00J1 4.0 15.0 - 20 GaP HSMS-A100-L00J1 10.0 15.0 - 20 GaP HSMS-A100-H70J2 .0 - 8.0 10 GaP HSMS-A100-J80J2 5.0 - 15.5 10 GaP HSMH-A100-L00J1 10.0 15.0 - 20 AlGaAs HSMH-A100-N00J1 25.0 50.0 - 20 AlGaAs HSMH-A100-L70J2 12.5 - 2.0 10 AlGaAs HSMH-A100-M80J2 20.0 - 62.0 10 AlGaAs HSMH-A100-P 0J1 40.0 - 100.0 20 AlGaAs HSMC-A100-J00J1 4.0 100.0 - 20 AlInGaP HSMC-A100-Q00J1 6 .0 100.0 - 20 AlInGaP HSMC-A100-R00J1 100.0 140.0 - 20 AlInGaP HSMC-A101-S00J1 160.0 220.0 - 20 AlInGaP HSMZ-A100-T00J1 250.0 50.0 - 20 AlInGaP HSMC-A100-P 0J1 40.0 - 100.0 20 AlInGaP HSMC-A101-R80J1 125.0 - 95.0 20 AlInGaP HSMZ-A100-S80J1 200.0 - 620.0 20 AlInGaPRed OrangePart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMJ-A100-Q00J1 6 .0 100.0 - 20 AlInGaP HSMJ-A101-S00J1 160.0 200.0 - 20 AlInGaP HSMV-A100-T00J1 250.0 50.0 - 20 AlInGaP HSMJ-A100-Q 0J1 6 .0 - 155.0 20 AlInGaP HSMJ-A100-R40J1 100.0 - 15.0 20 AlInGaP HSMJ-A101-R80J1 125.0 - 95.0 20 AlInGaP HSMV-A100-S80J1 200.0 - 620.0 20 AlInGaPOrangePart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMD-A100-J00J1 4.0 15.0 - 20 GaP HSMD-A100-L00J1 10.0 15.0 - 20 GaP HSMD-A100-J7PJ2 5.0 - 12.5 10 GaP HSMD-A100-K4PJ2 6. - 20.0 10 GaPHSML-A100-Q00J1 6 .0 100.0 - 20 AlInGaP HSML-A101-S00J1 160.0 220.0 - 20 AlInGaP HSML-A100-Q7PJ1 80.0 - 200.0 20 AlInGaP HSML-A100-R7PJ1 125.0 - 15.0 20 AlInGaP HSML-A101-R8WJ1 125.0 - 95.0 20 AlInGaPDevice Selection Guide, continuedYellow/AmberPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMY-A100-J00J1 4.0 12.0 - 20 GaP HSMY-A100-L00J1 10.0 12.0 - 20 GaP HSMY-A100-J 5J2 4.0 - 10.0 10 GaP HSMY-A100-K45J2 6. - 20.0 10 GaP HSMA-A100-Q00J1 6 .0 100.0 - 20 AlInGaP HSMA-A101-S00J1 160.0 220.0 - 20 AlInGaP HSMU-A100-S00J1 160.0 20.0 - 20 AlInGaP HSMA-A100-Q 5J1 6 .0 - 155.0 20 AlInGaP HSMA-A100-R45J1 100.0 - 15.0 20 AlInGaP HSMA-A101-R8WJ1 125.0 - 95.0 20 AlInGaP HSMU-A100-S4WJ1 160.0 - 500.0 20 AlInGaPYellow GreenPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMG-A100-J02J1 4.0 18.0 - 20 GaP HSMG-A100-K72J2 8.0 - 20.0 10 GaP HSME-A100-M02J1 16.0 70.0 - 20 AlInGaP HSME-A100-N82J1 0.0 - 100.0 20 AlInGaPEmerald GreenPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMG-A100-H01J1 2.5 8.0 - 20 GaP HSMG-A100-G 1J2 1.6 - 4.0 10 GaP HSMG-A100-H41J2 2.5 - 8.0 10 GaP HSME-A100-L01J1 10.0 40.0 - 20 AlInGaP HSME-A100-M PJ1 16.0 - 40.0 20 AlInGaPGreenPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMM-A101-R00J1 100.0 200.0 - 20 InGaN HSMM-A100-S00J1 160.0 50.0 - 20 InGaN HSMM-A101-Q7PJ1 80.0 - 200.0 20 InGaN HSMM-A101-R7PJ1 125.0 - 15.0 20 InGaN HSMM-A101-R8PJ1 125.0 - 95.0 20 InGaN HSMM-A100-S8PJ1 200.0 - 620.0 20 InGaNDevice Selection Guide, continuedCyanPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMK-A101-R00J1 100.0 170.0 - 20 InGaNHSMK-A100-S00J1 160.0 280.0 - 20 InGaNHSMK-A100-S8WJ1 200.0 - 620.0 20 InGaNHSMK-A101-Q WJ1 6 .0 - 155.0 20 InGaNHSMK-A101-R4WJ1 100.0 - 15.0 20 InGaNBluePart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMB-A100-J00J1 4.0 15.0 - 20 GaNHSMB-A100-J70J2 5.0 - 12.5 10 GaNHSMB-A100-K80J2 8.0 - 25.0 10 GaNHSMN-A101-N00J1 25.0 50.0 - 20 InGaNHSMN-A100-P00J1 40.0 70.0 - 20 InGaNHSMN-A101-N7YJ1 0.0 - 80.0 20 InGaNHSMN-A100-P8YJ1 50.0 - 155.0 20 InGaNNote:1. The luminous intensity, I v, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation pattern may not be aligned with this axis.Part Numbering SystemHSM x1 - A x2 x x4 -x5x6 x7 x8x9Packaging OptionColor Bin SelectionIntensity Bin SelectDevice Specific ConfigurationPackage TypeLED Chip ColorAbsolute Maximum Ratings (T A = 25°C)Parameters HSMS/D/Y/G HSMH HSMC/J/L/A HSME HSMZ/V/U HSMM/K/B/N DC Forward Current[1] 0 mA 0 mA 0 mA[ ,4]20 mA[4] 0 mA[ ,4] 0 mA Peak Forward Current[2]100 mA 100 mA 100 mA 100 mA 100 mA 100 mA Power Dissipation 6 mW 60 mW 6 mW 48 mW 72 mW 114 mW Reverse Voltage 5 VJunction Temperature 110°COperating Temperature –55°C to +100°CStorage Temperature –55°C to +100°CNotes:1. Derate linearly as shown in Figure 4.2. Duty factor = 10%, Frequency = 1 kHz.. Drive current between 10 mA and 0 mA is recommended for best long term performance.4. Operation at current below 5 mA is not recommended.Electrical Characteristics (T A = 25˚C) Forward Voltage Reverse Voltage Reverse Voltage ThermalV F (Volts) @ I F = 20 mA V R @ 100 µA V R @ 10 µA Resistance Part Number Typ. Max. Min. Min. R θJP (°C/W)HSMS/D/Y/G 2.2 2.6 5 — 180HSMH 1.9 2.6 5 — 180HSMC/J/L/A/E 1.9 2.4 5 — 280HSMZ/V/U 2.2 2.6 5 — 280HSMB .9 4. — 5 280HSMM/K/N .44.05—5280Optical Characteristics (T A = 25˚C)ViewingLuminous PeakDominant Angle Luminous Intensity/ Wavelength Wavelength [1] 2 θ1/2[2] Efficacy ηv [3] Total FluxDiceλPEAK (nm) λD (nm) (Degrees) (lm/W) I v (mcd)/Φv (mlm) Color Part Number Technology Typ. Typ. Typ. Typ. Typ.Red HSMS-A100 GaP 6 5 626 120 120 0.45 HSMH-A100 AlGaAs 645 6 7 120 6 0.45 HSMC-A10x AlInGaP 6 5 626 120 150 0.45 HSMZ-A100 AlInGaP 6 9 6 0 120 155 0.45Red HSMJ-A10x AlInGaP 621 615 120 240 0.45OrangeHSMV-A100 AlInGaP 62 617 120 26 0.45Orange HSMD-A100 GaP 600 602 120 80 0.45 HSML-A10x AlInGaP 609 605 120 20 0.45Amber HSMY-A100 GaP 58 585 120 520 0.45 HSMA-A10x AlInGaP 592 590 120 480 0.45 HSMU-A100 AlInGaP 594 592 120 500 0.45Yellow HSMG-A100 GaP 565 569 120 590 0.45Green HSME-A100 AlInGaP 575 570 120 560 0.45Emerald HSMG-A100 GaP 558 560 120 650 0.45GreenHSME-A100 AlInGaP 566 560 120 610 0.45Green HSMM-A10x InGaN 52 525 120 500 0.45Cyan HSMK-A10x InGaN 502 505 120 00 0.45Blue HSMB-A100 GaN 428 462 120 65 0.45HSMN-A10xInGaN468470120750.45Notes:1. The dominant wavelength, λD , is derived from the CIE Chromaticity Diagram and represents the color of the device.2. θ1/2 is the off-axis angle where the luminous intensity is 1/2 the peak intensity.. Radiant intensity, I e in watts/steradian, may be calculated from the equation I e = I v /ηv , where I v is the luminous intensity in candelas and ηv is the luminous efficacy in lumens/watt.Figure 1. Relative intensity vs. wavelength.Figure 2. Forward current vs. forward voltage.Figure 3. Relative intensity vs. forward current.Figure 4. Maximum forward current vs. ambient temperature. Derated based on T J MAX = 110˚C, RθJA= 500˚C/W.Figure 5. Dominant wavelength vs. forwardcurrent – InGaN devices.FORWARD VOLTAGE – V103035 F O R W A R D C U R R E N T – m A5201525Figure 4b. Maximum Forward Current Vs. Solder Point Temperature. Derated based on T J MAX = 110°C, RθJP= 180°C/W or 280°C/W.101520253035TEMPERATURE (°C)C U R R E N T - mA5101520253035TEMPERATURE (°C)C U R R E N T - m ACURRENT – mA460480540 D O M I N A N T W A V E L E N G T H – n mHSMx-A100 fig 5500470510490520530Figure 8a. Recommended SnPb reflow soldering profile.Figure 7. Radiation Pattern.D E L T A V F (N O R M A L I Z E D A T 25°C )-0.3TEMPERATURE – °C0.50.40.20.10-0.2-0.10.3Figure 6. Forward voltage shift vs. temperature.Figure 8b. Recommended Pb-free reflow soldering profile.(Acc. to J-STD-020C)TIMET E M P E R A T U R ET E M P E R A T U R E – °CNote: For detail information on reflow soldering of Avago surfaceFigure 11. Tape leader and trailer dimensions.Figure 12. Tape dimensions.Figure 13. Reel dimensions.Figure 14. Reeling orientation.11Intensity Bin Select (X5X6) Individual reel will contain parts from one half bin only.X5Min I v BinX60 Full Distributionhalf bins starting from X514 4 half bins starting from X515 5 half bins starting from X517 half bins starting from X528 4 half bins starting from X529 5 half bins starting from X52 Intensity Bin LimitsBin ID Min. (mcd) Max. (mcd) G1 1.80 2.24G2 2.24 2.80H1 2.80 .55H2 .55 4.50J1 4.50 5.60J2 5.60 7.20K1 7.20 9.00K2 9.00 11.20L1 11.20 14.00L2 14.00 18.00M1 18.00 22.40M2 22.40 28.50N1 28.50 5.50N2 5.50 45.00P1 45.00 56.00P2 56.00 71.50Q1 71.50 90.00Q2 90.00 112.50 R1 112.50 140.00 R2 140.00 180.00 S1 180.00 224.00 S2 224.00 285.00 T1 285.00 55.00 T2 55.00 450.00 U1 450.00 560.00 U2 560.00 715.00 V1 715.00 900.00 V2 900.00 1125.00 Tolerance of each bin limit = ± 12%.Color Bin Select (X7)Individual reel will contain partsfrom one full bin only.X70 Full DistributionZ A and B onlyY B and C onlyW C and D onlyV D and E onlyU E and F onlyT F and G onlyS G and H onlyQ A, B, and C onlyP B, C, and D onlyN C, D, and E onlyM D, E, and F onlyL E, F, and G onlyK F, G, and H only1 A, B, C, and D only2 E, F, G, and H onlyB, C, D, and E only4 C, D, E, and F only5 A, B, C, D, and E only6 B, C, D, E, and F onlyColor Bin LimitsBlue Min. (nm) Max. (nm)A 460.0 465.0B 465.0 470.0C 470.0 475.0D 475.0 480.0Green Min. (nm) Max. (nm)A 515.0 520.0B 520.0 525.0C 525.0 5 0.0D 5 0.0 5 5.0Cyan Min. (nm) Max. (nm)A 490.0 495.0B 495.0 500.0C 500.0 505.0D 505.0 510.0Color Bin LimitsEmeraldGreen Min. (nm) Max. (nm)A 552.5 555.5B 555.5 558.5C 558.5 561.5D 561.5 564.5Orange Min. (nm) Max. (nm)A 597.0 600.0B 600.0 60 .0C 60 .0 606.0D 606.0 609.0E 609.0 612.0Red Orange Min. (nm) Max. (nm)A 611.0 616.0B 616.0 620.0Red Min. (nm) Max. (nm)Full DistributionTolerance of each bin limit = ± 1 nm.Amber Min. (nm) Max. (nm)A 582.0 584.5B 584.5 587.0C 587.0 589.5D 589.5 592.0E 592.0 594.5F 594.5 597.0YellowGreen Min. (nm) Max. (nm)E 564.5 567.5F 567.5 570.5G 570.5 57 .5H 57 .5 576.512Packaging Option (X 8X 9)Option Test Current Package Type Reel Size J1 20 mA Top Mount 7 inch J4 20 mA Top Mount 1 inch H1 20 mA Reverse Mount 7 inch H4 20 mA Reverse Mount 1 inch J2 10 mA Top Mount 7 inch J5 10 mA Top Mount 1 inch H2 10 mA Reverse Mount 7 inch H5 10 mA Reverse Mount1 inchFor product information and a complete list of distributors, please go to our website: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies Limited in the United States and other countries.Data subject to change. Copyright © 2007 Avago Technologies Limited. All rights reserved. Obsoletes AV01-0040EN AV02-0198EN - May 30, 2007Moisture SensitivityThis product is qualified as Moisture Sensitive Level 2a per Jedec J-STD-020. Precautions when handling this moisture sensitive product is important to ensure the reliability of the product. Do refer to Avago Application Note AN5 05 Handling of Moisture Sensitive Surface Mount Devices for details.A. Storage before use- Unopen moisture barrier bag (MBB) can be stored at <40°C/90%RH for 12 months. If the actual shelf life has exceeded 12 months and the HIC indicates that baking is not required, then it is safe to reflow the LEDs per the original MSL rating.- It is not recommended to open the MBB prior to assembly (e.g. for IQC).B. Control after opening the MBB- The humidity indicator card (HIC) shall be read im-mediately upon opening of MBB.- The LEDs must be kept at < 0°C / 60%RH at all time and all high temperature related process including soldering, curing or rework need to be completed within 672 hours.C. Control for unfinished reel- For any unuse LEDs, they need to be stored in sealed MBB with desiccant or desiccator at <5%RH.D. Control of assembled boards- If the PCB soldered with the LEDs is to be subjected to other high temperature processes, the PCB need to be stored in sealed MBB with desiccant or desic-cator at <5%RH to ensure no LEDs have exceeded their floor life of 672 hours.E. Baking is required if:- “10%” or “15%” HIC indicator turns pink.- The LEDs are exposed to condition of > 0°C / 60% RH at any time.- The LEDs floor life exceeded 672 hours.Recommended baking condition: 60±5°C for 20 hours.。
电除尘用高压电源供电装置微机控制器产品说明书杭州天明环保2006-11-2版本:目录概括 (3)技术说明 (4)使用条件 (4)型号的意义 (4)输入输出参数 (5)运转工作方式 (5)显示运转整定参数 (6)保护功能 (7)安装 (8)拆封 (8)高压硅整流器检查 (8)安装 (9)调试 (10)使用 (12)开机 (12)停机 (12)保护 (13)控制柜保护 (13)高压硅整流器保护 (13)TM -Ⅰ型控制器使用说明 (14)显示器 (14)操作键 (14)运转页面内容显示 (15)参数设定 (16)故障查找 (16)故障指示 (16)故障办理 (17)产品成套性 (18)附录 (19)概括GGA j02(TM- Ⅰ)型电除尘器微型机自动控制高压供电装置,拥有下述特色。
控制部分采纳了先进的十六位单片机和外头芯片,拥有功能强,构造简单,靠谱性好等长处。
依据电场中电压电流波形变化的剖析,能特别正确地判断闪烙,并做出最正确的办理,闪烙办理上采纳了降落幅度小,上涨速度快,不封闭可控硅的方法,能向电场供给最大的有效电晕功率。
供给多种供电运转方式,可知足各样不一样工况条件的要求。
操作使用方便,设施的开机,停机,参数显示,参数设定,运转方式的变换都可经过操作面板上键盘实现。
显示内容丰富,显示器可显示十多种参数和信息。
参数设定拥有记忆功能,设定的参数断电后无需从头设定,给用户带来很大的方便。
保护功能完美,拥有十一种故障保护和报警功能。
拥有 RS485 通信接口,可方便地实现远地控制。
技术说明使用条件1.控制柜使用的环境温度为0~40℃ 。
高压硅整流变压器使用的环境温度为不高于+40℃,不低于变压器有所规定的凝点温度。
2.空气最大相对湿度不超出90%(在相当于空气温度20±5℃时)。
3.设施四周的气体应无导电尘埃,和含有腐化金属或绝缘资料的气体或蒸汽存在。
4.无爆炸性危险的环境,控制室四周无强烈震动和冲击,垂直倾斜度不超出5%。
XJ-100小电流接地故障选线及监测系统用户手册淄博科汇电气有限公司Kehui Electric Co. Ltd.,Zibo目录1XJ-100小电流接地故障选线及监测系统简介 (5)1.1 原理与概述 (5)1.2总体结构 (6)1.3 主要技术指标及技术特点 (7)2XJ-100小电流接地故障检测装置 (9)2.1 装置概述 (9)2.2 装置的结构 (9)2.3 装置的前面板说明 (10)2.4 装置组屏 (10)2.5 装置接线 (11)2.5.1装置的后面板接线端子图 (11)2.5.2装置的接线说明 (11)2.6 装置使用指南 (12)2.6.1开机 (12)2.6.2复位 (12)2.6.3设置与PC机通讯波特率、内部时钟的时间、数码管显示亮度 (12)2.6.4与T-GPS时钟通讯的波特率设置 (13)2.6.5故障启动、记录 (13)2.7 装置的运行维护及异常处理 (14)2.7.1定期检查装置 (14)2.7.2通风及散热 (14)2.7.3常见异常情况及处理 (14)3XJ-100小电流接地故障分析系统的安装 (16)3.1 XJ-100软件运行的硬件环境 (16)3.2 XJ-100软件运行的软件环境 (16)3.3 XJ-100软件的安装步骤 (16)3.4 XJ-100软件系统的外部连接 (17)3.5 XJ-100软件系统的启动 (17)3.6 XJ-100软件系统的卸载 (18)4XJ-100小电流接地故障分析系统的使用 (19)4.1 运行方式选择 (19)4.2分站运行方式下的配置 (19)4.3调度端运行方式下的配置 (22)4.4 XJ-100软件的主窗口 (23)4.4.1主窗口布局 (23)4.4.2主窗口操作 (24)4.5 XJ-100软件的主菜单 (25)4.5.1系统设置菜单 (25)4.5.2通讯菜单 (26)4.5.3数据维护菜单 (28)4.5.4查看菜单 (29)4.5.5帮助菜单 (30)4.6 波形分析 (30)4.7 故障统计 (31)本手册为您提供了科汇电气有限公司生产的XJ-100小电流接地故障选线及监测系统的各项功能和操作方法的介绍。
一、中央控制系统1.中央控制主机CR-PGMIICR-PGMII可编程控制主机产品描述PGMⅡ可编程控制系统中控系统采用主频达210MHZ的32位内嵌式处理器,内置了8M内存和2M存储FLASH,可高速运算复杂的逻辑指令,强大的内置可编程接口,使PGMⅡ可以控制几乎所有的外接设备(包括第三方设备),可实现一键发双代码等红外逻辑控制。
支持3路CR-NET 控制总线,可扩充达256个网络设备(如:触摸屏、调光器、电源控制器、音量控制器等)。
可通过扩展以太网控制接口实现计算机远程控制。
产品特性· CR-PGM II配置主频达210MHz的32位内嵌式处理器,内置8M内存和2M存储FLASH,能高速运行复杂的逻辑指令。
·提供开放式的可编程控制平台、人性化的中文操作界面和交互式的控制结构。
·强大的内置可编程接口使CR-PGM II可以控制几乎所有的外接设备(包括第三方设备)。
·用户建立自有的红外代码数据库,也可以从CREATOR网站上下载最新的红外代码库,可实现一键发双代码等红外逻辑控制。
·支持3路CR-NET控制总线,可扩充达256个网络设备(如:触摸屏、调光器、电源控制器、音量控制器等)。
·可通过扩展以太网控制接口实现计算机远程控制。
·内嵌式红外学习功能。
· 2U金属机箱设计,符合国际机箱标准,可安装于任何19英寸的机柜上。
2.无线触摸屏ST-7600CST-7600C彩色无线画中画触摸屏产品描述ST-7600C支持无线单向控制方式,16:9的宽屏显示。
通过无线接收器(CR-RFA)与主机进行通信。
轻巧外型,可手持操作,配合CR-PGMII和Touch-AV使用,组成完美的控制系统。
应用场合•指挥控制中心•大型多媒体会议厅•多媒体教室•高级别墅、酒店•智能家居产品特性• 65K真彩TFT LCD显示屏,触屏解析度800×480像素,16:9的宽屏显示。
HYHL-100A/200A回路电阻测试仪使用说明书武汉市华英电力科技有限公司地址:武汉市东湖高新区光谷大道62号光谷总部国际7栋4层电话:400-027-0098*************传真:************E-mail:**************网址:回路电阻测试仪使用说明书1仪器简介使用直流电桥测试接触电阻时电流仅毫安难以发现回路导体截面积减少的缺陷,在测量高压开关导电回路接触电阻时,由于受触头之间油膜和氧化层的影响,测量值偏大若干倍,无法真实的反映接触电阻值。
GB1984和IEC62271中对高压断路器的回路接触电阻测试进行了明确的要求,规定在测试断路器的回路电阻时,测试电流不小于200A,测试越接近断路器的额定运行电流,则断路器的测试结果越可靠。
回路电阻测试仪采用新型数字开关电源技术,可以直接产生100A/200A(对于200A型的测试仪)的直流电流输出至断路器被测回路。
基于4线法快速测量回路的接触电阻,测试结果直接显示在仪器的LCD屏上,所有的测试结果都可以通过仪器内置的微型打印机打印。
测试结果还可以保存在仪器存储器上,仪器最大的存储空间达100组。
所存储的测试结果还可以通过RS232接口上传至PC机保存。
2 技术指标1、测量范围:2mΩ/ 20 mΩ可选2、分辩率:0.1μΩ/1μΩ3、测量电流:直流≥1004、测量精度:0.5%RGD+0.05%FS5、显示方式:LCD中文显示6、可储存100组数据7、工作方式:连续8、支持RS232数据上传9、电源:AC220V±10% 50Hz10、体积:(长×宽×高mm)340×280×21011、环境温度:-10℃~+40℃相对湿度<80%12、重量:<10公斤3 硬件介绍图1 回路电阻测试仪回路电阻测试仪的外形如图1所示,工作时仪器提供不小于100A/200A(对于200A型的测试仪)的直流加载在被试品两端,然后采用四线法测量被试品的电阻值,经过滤波处理和科学计算,直接在一起LCD上显示微欧级别的接触电阻,试验时仪器接线如图2所示,其中图2中接线柱的标注1,2,3,4与图1中的接线柱标注一致图2 测试接线图回路电阻测试仪的电路原理框图如图3所示。
Agilent HSMx-A10x-xxxxx PLCC-2 SMT LEDProduct BriefBackgroundAn industry leader in high brightness LED technology, Agilent Technologies offers a wide range of surface-mount (SMT) LEDs, including Subminia-ture lamps, ChipLEDs and High flux LEDs. As more applications demand SMT LEDs, we have introduced the Agilent PLCC-2 SMT LEDs. These new products deliver top emission in the industry-standard PLCC-2 package.About the productsThis surface-mount LED comes in PLCC-2 standard package dimension. It has a substrate made up of a molded plastic reflector sitting on top of a bent lead frame. The die is attached within the reflector cavity and the cavity is encapsulated by an Agilent proprietary epoxy blend.The PLCC-2 SMT LED productswith a viewing angle of 120° isideal for instruments/switch/iconbacklighting. Its external reflec-tor makes easy coupling withlight pipe/light guide for an even-larger area backlighting. Thepackage design coupled withcareful selection of componentmaterials allow these productsto perform with high reliability ina larger temperature range -40°Cto 100°C. The high reliabilityfeature is crucial to AutomotiveInterior and Indoor ESS.This package is also designed tobe compatible with bothIR-solder reflow andthrough-the-wave soldering.The new Agilent TLED will carrythe part number HSMx-A10x-xxxxx.Features and Benefits•Industry Standard PLCC-2 SMTpackage–No change in existing boardlayout, drop-in replacement forthe existing PLCC-2 SMT LEDs•High brightness using AlInGaP andInGaN dice technologies–Only supplier using TS AlInGaPmaterial•Available in multiple colors–Broad range of colors: Red, Red-Orange, Orange, Amber, Yellow-Green, Emerald Green, Green,Cyan and Blue•Super wide viewing angle at 120°–Well-suited for backlightingapplications•High volume, high reliability–Cost effective solution•Compatible with both IR and TTWsoldering process•Black reflector surface–for reduce contrast in ESS•High brightness performance – onlyPLCC-2 SMT LED supplier offeringTS AlInGaP materialPart Numbers and Typical Product PerformancePart NumberColorDominantViewing Intensity, Iv @ 20mA Vf @ 20mAWavelength λD Angle Min Typ Typical (nm)2θ1/2 (°)(mcd)(mcd)(V)HSMS-A100-J00J1GaP Red 626120415 2.2HSMH-A100-L00J1AS AlGaAs Red 6371201050 1.9HSMC-A100-Q00J1AS AlInGaP Red 62612063100 1.9HSMZ-A100-R00J1TS AlInGaP Red 630120100400 2.2HSMJ-A100-Q00J1AS AlInGaP Red Orange 61512063200 1.9HSMV-A100-R00J1TS AlInGaP Red Orange 617120100350 2.2HSMD-A100-J00J1GaP Orange 602120415 2.2HSML-A100-Q00J1AS AlInGaP Orange 60512063160 1.9HSMY-A100-J00J1GaP Amber 585120415 2.2HSMA-A100-Q00J1AS AlInGaP Amber 59012063100 1.9HSMU-A100-R00J1TS AlInGaP Amber 592120100270 2.2HSMG-A100-J02J1GaP Yellow 569120418 2.2HSMG-A100-H01J1GaP Emerald Green 560120 2.58 2.2HSMM-A100-S00J1InGaN Green 525120160280 3.7HSMK-A100-S00J1InGaN Cyan 505120160280 3.5HSMB-A100-J00J1GaN Blue 462120415 4.0HSMN-A100-P00J1InGaN Blue47012040703.5Notes:1.The luminous intensity l V , is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation pattern may not be aligned with this axis.2.The dominant wavelength, λD , is derived from the CIE Chromaticity Diagram and represents the color of the device.3.θ1/2 is the off-axis angle where the luminous intensity is 1/2 the peak intensity.Special Product Features and Benefits •Mold Clamp–provides highest reliability performance by eliminating leadframe-epoxy delamination after solder reflow •Reflector Step Down–perfect SMT pick-up due to epoxy overfill being eliminated•Package Bottom Chamfer–perfect lead forming giving high reliability performance (no lead over-formed), and no “tomb-stoning ” defect after solder reflow Target Markets and Applications •Interior automotive–Instrument panel backlighting –Central console backlighting –Cabin backlightingFor product information and a complete list of Agilent contacts and distributors, please go to our web site./semiconductorsE-mail: SemiconductorSupport@ Data subject to change.Copyright © 2002 Agilent Technologies, Inc.February 13, 20025988-5616EN•Electronic Signs and Signals –Interior full color sign –Variable message sign •Office Automation, Electrical Appliances, Industrial Equipment –Front panel backlighting –Push button backlighting –Display backlighting。