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互容FT5X06&FT5X16屏工厂量产及测试指导V02

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Sensor图案自动生成软件指导书

Sensor图案自动生成软件指导书

FocalTech Sensor设计软件操作指导书(初版)前言:引导设计人员根据实际的项目,设置各参数配置,直接生成相应的SENSOR图案,提高设计效率及设计一致性。

此自动绘图工具基于AutoCAD2007开发,对于其它版本不能保证其适用性。

准备动作:1.先打开需要设计的Sensor框图,如:2.再打开自动工具:本软件根据不同的设计需求,把SENSOR图案分为七大类:单层互容、GlassSito‐1、GlassSito‐2、传统DITO、超薄DITO、自电容(横三角)、自电容(两点),设计时请根据实际需求,选择Sensor图案类型。

各类型SENSOR图案参数设置:1.单层互容。

适用IC:FT5306i、FT5336i、FT5436i。

根据实际的生产工艺及项目尺寸,填写对应的参数。

填写“尺寸”栏时,工具会根据尺寸自动推荐最佳的通道数量。

当推荐通道数不满足项目需求时,可手动更改“TX数目”与“RX数目”,其中“TX数目”只能为偶数。

参数设置:SENSOR的VA区尺寸,可手动直接输入数值,如:手动输入VA宽度49.96、高度74.44。

如图:也可从CAD获取数值,步骤如下:选择“CAD输入”→点击“获取”→鼠标选中已打开的CAD图→点击SENSOR的VA区左下角及右上角获取数值→返回自动生成软件。

如图:根据实际项目填写外扩值及按键数量,外扩值即允许VA区单边外扩为AA区的尺寸,典型值为单边外扩0.5mm,实际项目中外围空间不足时可设置外扩值为“0”。

根据实际的生产工艺,可进入“扩展参数”子菜单进行详细的工艺设置,如下:其中:走线角度范围:15°—20°,典型值15°。

所有参数填写完毕后,点击“确认”,返回自动生成软件,点击“计算”,计算出图案各参数值,点击“生成图案”,鼠标选中打开的CAD图,点击VA区左下角,等待图案自动生成,如图:2.GlassSito-1。

适用IC:FT5X02系列、FT5X06系列、FT5X16系列,建议适用6.0inch以下尺寸,GlassSito架桥结构。

Phoenix Contact MSTBV 2,5 5-GF-5,08 连接器说明书

Phoenix Contact MSTBV 2,5 5-GF-5,08 连接器说明书

03/26/2019 Page 1 / 9Printed-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109Please be informed that the data shown in this PDF Document is generated from our Online Catalog. Please find the complete data in the user's documentation. Our General Terms of Use for Downloads are valid (/download)PCB headers, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, color:green, contact surface: Tin, mounting: Wave solderingThe figure shows a 10-position version of the productYour advantagesMaximum flexibility when it comes to device design – one header for connectors with different connection technologies Well-known mounting principle allows worldwide useVertical connection enables multi-row arrangement on the PCBScrewable flange for superior mechanical stabilityKey Commercial DataTechnical dataDimensions03/26/2019 Page 2 / 9Printed-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109Technical dataDimensionsGeneralStandards and RegulationsEnvironmental Product ComplianceDrawingsDiagramType: TVMSTB 2,5/...-STF-5,08 with MSTBV 2,5/...-GF-5,08Drilling diagram03/26/2019 Page 3 / 9Printed-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109DiagramAmbient temperature [°C]C u r r e n t s t r e Type: TFKC 2,5/...-STF-5,08 with MSTBV 2,5/...-GF-5,08Dimensional drawingClassificationseCl@ssETIMUNSPSCApprovalsApprovalsApprovalsDNV GL / CSA / RS / IECEE CB Scheme / VDE Gutachten mit Fertigungsüberwachung / EAC / cULus RecognizedEx ApprovalsPrinted-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109 ApprovalsApproval detailsDNV GL /tari/ TAE00001EYRS http://www.rs-head.spb.ru/en/index.php 17.00014.272EAC B.0174203/26/2019 Page 4 / 903/26/2019 Page 5 / 9Printed-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109AccessoriesAccessories Coding elementCoding star - CR-MSTB - 1734401Coding section, inserted into the recess in the header or the inverted plug, red insulating materialFiller plugAccessories - MSTB-BL - 1755477Keying cap, for forming sections, plugs onto header pin, green insulating materialLabeled terminal markerMarker card - SK 5,08/3,8:FORTL.ZAHLEN - 0804293Marker card, Card, white, labeled, Horizontal: consecutive numbers 1 ... 10, 11 ... 20, etc. up to 91 ... (99)100,mounting type: adhesive, for terminal block width: 5.08 mm, lettering field size: 5.08 x 3.8 mmMarker penMarker pen - B-STIFT - 1051993Marker pen, for manual labeling of unprinted Zack strips, smear-proof and waterproof, line thickness 0.5 mmTerminal marking03/26/2019 Page 6 / 9Printed-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109AccessoriesMarker card - SK 5,08/3,8:UNBEDRUCKT - 0805412Marker card, Card, white, unlabeled, can be labeled with: Marker pen, mounting type: adhesive, for terminal block width: 5.08 mm, lettering field size: 5.08 x 3.8 mmAdditional productsPrinted-circuit board connector - TVMSTB 2,5/ 5-STF-5,08 - 1719121PCB connector, nominal current: 12 A, rated voltage (III/2): 400 V, number of positions: 5, pitch: 5.08 mm, connection method: Screw connection with tension sleeve, color: green, contact surface: TinPrinted-circuit board connector - FKCN 2,5/ 5-STF-5,08 - 1754827PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Push-in spring connection, color: green, contact surface: TinPrinted-circuit board connector - FRONT-MSTB 2,5/ 5-STF-5,08 - 1777837PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Front screw connection, color: green, contact surface: TinPrinted-circuit board connector - MSTB 2,5/ 5-STF-5,08 - 1778014PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Screw connection with tension sleeve, color: green, contact surface: Tin03/26/2019 Page 7 / 9Printed-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109AccessoriesPrinted-circuit board connector - MSTBT 2,5/ 5-STF-5,08 - 1805330PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Screw connection with tension sleeve, color: green, contact surface: TinPrinted-circuit board connector - MSTBC 2,5/ 5-STZF-5,08 - 1809763PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Crimp connection, color: green, Corresponding female crimp contacts with current [A] and conductor cross section range [mm²] data: 10A/MSTBC-MT 0,5-1,0 (3190564); 10A/MSTBC-MT 0,5-1,0 BA (3190645); 12A/MSTBC-MT 1,5-2,5 (3190551); 12A/MSTBC-MT 1,5-2,5 BA (3190658). BA = BandkontaktePrinted-circuit board connector - MVSTBW 2,5/ 5-STF-5,08 - 1834932PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Screw connection with tension sleeve, color: green, contact surface: TinPrinted-circuit board connector - MVSTBR 2,5/ 5-STF-5,08 - 1835122PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Screw connection with tension sleeve, color: green, contact surface: TinPrinted-circuit board connector - TMSTBP 2,5/ 5-STF-5,08 - 1853133PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Screw connection with tension sleeve, color: green, contact surface: Tin, The plug allows conductors to be looped through from module to module.03/26/2019 Page 8 / 9Printed-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109AccessoriesPrinted-circuit board connector - FKC 2,5/ 5-STF-5,08 - 1873236PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Push-in spring connection, color: green, contact surface: TinPrinted-circuit board connector - FKCVW 2,5/ 5-STF-5,08 - 1873838PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Push-in spring connection, color: green, contact surface: TinPrinted-circuit board connector - FKCVR 2,5/ 5-STF-5,08 - 1874138PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Push-in spring connection, color: green, contact surface: TinPrinted-circuit board connector - QC 1/ 5-STF-5,08 - 1883381PCB connector, nominal current: 10 A, rated voltage (III/2): 630 V, number of positions: 5, pitch: 5.08 mm, connection method: Displacement connection, color: green, contact surface: TinPrinted-circuit board connector - FKCT 2,5/ 5-STF-5,08 - 1902330PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Push-in spring connection, color: green, contact surface: Tin03/26/2019 Page 9 / 9Printed-circuit board connector - MSTBV 2,5/ 5-GF-5,08 - 1777109AccessoriesPrinted-circuit board connector - TFKC 2,5/ 5-STF-5,08 - 1962723PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Push-in spring connection, color: green, contact surface: TinPrinted-circuit board connector - SMSTB 2,5/ 5-STF-5,08 - 1971099PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Screw connection with tension sleeve, color: green, contact surface: TinPrinted-circuit board connector - FKCS 2,5/ 5-STF-5,08 - 1975299PCB connector, nominal current: 12 A, rated voltage (III/2): 320 V, number of positions: 5, pitch: 5.08 mm, connection method: Push-in spring connection, color: green, contact surface: TinPhoenix Contact 2019 © - all rights reserved 。

TD900 系列通用变频器 说明书

TD900 系列通用变频器 说明书

前言
感谢您使用艾默生网络能源有限公司生产的TD900系列变频器。 TD900系列变频器是艾默生网络能源有限公司自主开发生产的高品质、多 功能、低噪音变频器。在使用TD900系列变频器之前,请您仔细阅读该手 册,以保证正确使用并充分发挥其优越性能。另外,本手册为随机发送的 附件,务必请您使用后妥善保管。 本手册内容如有变动,请以新版本为准。
1、恒转矩低速运行 变频器带普通电机长期低速运行时,由于散热效果变差,会影响电机寿命。如果需低 速恒转矩长期运行,必须选用专用的变频电机。
2、电机绝缘的确认 应用TD900系列变频器时,带电机前请先确认所用电机的绝缘,以防损坏设备。另外 在电机所处环境比较恶劣时请定期检查电机的绝缘情况,以保证系统的安全工作。
应在断开电源5分钟后进行维护操作,此时充电指示灯彻底熄灭或确认 正负母线电压在36V以下,否则有触电的危险。
! 注意
不要将螺钉、垫片及金属棒之类的异物掉进变频器内部,否则有火灾及 变频器损坏的危险。
如果变频器有损伤或部件不全时,请不要安装运转,否则有火灾、受伤 的危险。
不要安装在阳光直射的地方,否则有损坏变频器的危险。
TD900系列通用变频器 使用说明书
2 第一章 安全规程
3、电机的电子热保护值 如果匹配电机与变频器额定值不符合时(电机额定电流远小于变频器额定电流),请 调整保护值(F021),以保证电机的安全运行。
4、负转矩负载 对于如提升负载之类的场合,常常会有负转矩发生,变频器会产生过流或过压故障而 跳闸,此时应该考虑选配制动电阻。
艾默生网络能源有限公司 地址:深圳市南山区科技工业园科发路一号 邮编:518057 公司网址: 客户服务热线: 800-820-6510 手机及未开通800地区请拨打:021-23017141,0755-86010800 E-mail:info@

专题04 力时间图像问题-物理核心探秘

专题04 力时间图像问题-物理核心探秘

专题四、力时间图像问题F -t 图像显示的是力F 与时间t 之间的关系,而力F 与物体的加速度相联系,因此可以通过分析F -t 图像来研究物体的运动规律.F -t 图像不仅涉及直线运动的有关知识,还涉及超重、失重、功率、冲量和电磁感应等有关知识,是高考考查的重点,同时也是考生复习的难点.1. F -t 图像的特点(l)如图所示,图线1表示力F 不随时间t 的变化而变化,即物体受到的力为恒力;图线2表示力F 随时间t 的变化而均匀变化,即物体受到的力为变力,加速度也是变化的.(2)在时间t 轴上方,力F 为正,表示物体所受到的力的方向为正方向;在时间t 轴下方,力F 为负.表示物体受到的力的方向为负方向.(3)两条F -t 图线的交点表示两物体所受到的力相同,图线的斜率大小表示力随时间变化的快慢.(4) F -t 图线与时间坐标轴所围的面积大小等于一段时间内力F 的冲量大小,即I =Ft .如果力F 是恒力,那么图线所围的面积为S1 =I1=Ft ;如果力F 是变力,用微元法可以得到S2=I2=∑Fntn.因此,无论物体受到的力是恒力还是变力,都可以利用F -t 图像来求冲量.(5)从F -t 图像得出冲量后,可以利用冲量的定义式求出这一段肘间内的平均力,即F =I .t2.关于F -t 图像的命题规律有关F -t 图像的题目,一般是以选择题和计算题为主,涉及的知识比较广泛,综合性比较强.分析问题时,要能够从力随时间变化的规律去分析,判断物体的运动规律,这对处理多过程问题尤为重要.透视1 通过 F -t 图像考查直线运动规律物体的受力与物体的运动有密切的关系,既可以通过物体的受力确定物体的运动情况,也可以通过物体的运动情况确定物体的受力.如果知道了物体的F -t 图像,也就知道了物体的受力情况,可以通过“加速度”这一桥梁将物体的受力和运动联系起来.对于直线运动,一旦知道了加速度,那就清楚了物体的运动规律.【题1】质量为2 kg的物体静止在足够大的水平面上,物体与地面间的动摩擦因数为0.2,最大静摩擦力和滑动摩擦力大小视为相等,从t =0时刻开始,物体受到方向不变、大小呈周期性变化的水平拉力F 的作用,F 随时间t 的变化规律如图所示.重力加速度g 取10 m/s2 ,则物体在t =0到t =12 s这段时间内的位移大小为( )A. 18 m B.54 m C.72 m D. 198 m【解析】根据题意可知,拉力只有大于最大静摩擦力时,物体才会由静止开始运动,而fmax=μmg =4 N.根据题图分析如下:在0~3 s内,F =fmax,即水平拉力F 与最大静摩擦力相等,所以物体保持静止,则s1=0;在3~6 s内,F >fmax,即水平拉力F 大于最大静摩擦力,物体由静止开始做匀加速直线运动,则a =F -fm=8 -42m/s2 =2 m/s2 v =at = 6 m/ss =1at 2 =1⨯ 2⨯ 32 m=9 m2 2 2在6~9 s内, F =f ,即水平拉力 F 与滑动摩擦力相等,物体做匀速直线运动,则s3=vt = 6⨯ 3 m =18 m在9~12 s内,F >f ,即水平拉力F 大于滑动摩擦力,物体以6 m/s为初速度,以2 m/s2 为加速度继续做匀加速直线运动,则s =vt +1at 2 = (6⨯ 3 +1⨯ 2⨯ 32 ) m=27 m4 2 2由以上分析可知,在0~12 s内物体的位移为s =s1+s2+s3+s4= 54 m,故选项B正确.透视2 通过 F -t 图像考查“蹦极”运动在“蹦极”运动中,人受到绳子的拉力是不同的,它随时间的变化而变化.当题目中给出了F -t 图像时,可以根据图像分析人的运动状况.“蹦床运动”、“用弹性绳系着的小球的下落问题”等,与“蹦极”运动相似,人受到绳子的拉力和压力都是变化的,同样可以通过F -t 图像来分析问魉.【题2】“蹦极”就是跳跃者把一端固定的长弹性绳绑在踝关节等处,从几十米高处跳下的一种极限运动,某人做蹦极运动,所受绳子拉力F 的大小随时间t 变化的情况如图所示,将蹦极过程近似为在竖直方向的运动,重力加速度为g .据图可知,此人在蹦极过程中最大加速度约为( )A.g B.2g C.3g D. 4g【解析】根据F -t 图像可知,在蹦极过程中,人下落到最低点时速度为零,绳子的拉力最大,且绳子的最大拉力为9F ;随着运动的进行,最终停止运动,人的重力与绳子的拉力相等,从图中可以看出停止运动时绳子的拉5 0力为3F ,又3F =mg ,即F =5mg .一开始运动时,在最低点人受到的拉力最大,加速度最大,则9F -mg =ma ,5 0 5 0 0 3 5 0 m解得am= 2g .故正确答案为B.透视3 通过 F -t 图像考查两个物体的相对运动2 1 2两个相互叠加的物体,受到一个外力的作用,在水平面上做直线运动,两物体的运动状态受到这个外力的影响.若力 F 随时间t 而变化,那么这两个物体间的摩擦力既可以是静摩擦力,又可以是滑动摩擦力.分析这类问题时,重点是要根据所受到的外力确定两物体所受摩擦力的情况,以确定物体的运动状态.【题3】图甲中,质量为 m 的物块叠放在质量为 2m 的足够长的木极上方右侧,木板放在光滑的水平地面上,物块与木板之间的动摩擦因数为μ=0.2.在木板上施加一水平向右的拉力 F ,在0~3 s 内 F 的变化如图乙所示,图中 F 以 mg 为单位,重力加速度 g = 10 m/s 2 .整个系统开始时静止.(1) 求1s 、1.5s 、2s 、3s 末木板的速度以及2s 、3s 末物块的速度;(2) 在同一坐标系中画出0~3s 内木板和物块的 v - t 图像,据此求0~3 s 内物块相对于木板滑过的距离.【解析】(l)根据题意可知,在木板上施加一水平向右的拉力 F ,物块在摩擦力的作用下向右运动,木板受到拉力F 和摩擦力的作用向右运动.设木板的加速度为 a ,物块的加速度为 a ' ,在t 时刻木板的速度v t ,物块的速度 v t ' , 物块与木板之间的摩擦力为 f ,根据牛顿第二定律和运动学规律可得f = μmg = ma ' F - f = 2ma在0~l s 内, a 1 ① ②= F - f2m= 4m/s 2 , a ' = 2m/s 2 ,则v 1 = a 1t = 4m/s , v 1 ' = a 1 't = 2m/s ③在1~1.5 s 内, a = F - f = 1m/s 2 ,a' = a ' = 2m/s 2 1.5 2m1.5 1则v 1.5 = (4 +1⨯ 0.5)m/s = 4.5m/sv 1.5 ' = 2 ⨯1.5m/s = 3m/s ④在1.5~2 s 内, F = 0 ,又因为v 1.5 ' < v 1.5 ,所以木块与物块还发生相对运动,木块做减速运动,物块继续做加速度为 a ' = a ' = 2m/s 2的加速运动,直到速度相等时两者示再发生相对运动,木块做减速运动的加速度大小为a = 1m/s 2 ,设经过∆t 时间两者达到相等速度 v ,则 v = v 1.5 - a 2 ∆t⑤v = v 1.5 '- a 2 '∆t⑥联立⑤⑥式解得∆t =0.5 s⑦所以,木块与物块在t =2 s 时达到共同速度,则v 2 =4 m/s , v 2 ' =4 m/s⑧在2~3 s 内,木块与物块共同向右运动,则v 3 =4 m/s , v 3 ' =4 m/s ⑨(2)根据③④⑧⑨式画出物块与木板运动的 v - t 图像,如图所示.在0~3 s 内物块相对于木板的距离∆s 等于木板和物块 v - t 图线下的面积之差,即图中阴影部分的面积.该四边形由两个三角形组成,由图可以解得∆s =2.25 m.点评 无论是求物体的速度、位移,还是求物体受到的力,其切入点都是 F = ma 这个桥梁,也就是物体的加速度.透视4 通过 F - t 图像考查超重和失重问题超重和失重的实质是物体“视重”与实重不一致.当“视重”大于实重时,物体处于超重状态;当“视重”小于实重时,物体处于失重状态.若知道了物体的“视重” F 随时间t 变化的图像,就可以根据图像分析 F 与实重G 之间的关系,继而可以判断物体是处于超重状态还是处于失重状态.【题4】某人在地面上用弹簧秤称得体重为490 N.他将弹簧秤移至电梯内称其体重,t 0 至t 3 时间段内,弹簧秤的示数如图所示,取电梯向上运动的方向为正方向,电梯运行的 v - t 图像可能是 ( )【解析】根据题图可知,在t 0 ~ t 1 时间段,弹簧秤的示数为440 N ,小于人的实际重量,因此电梯处于失重状态, 此时电梯具有向下的加速度;在t 1 ~ t 2 时间段弹簧秤示数为490 N ,等于人的实际重量,因此电梯既不超重也不失重,做匀速运动;在t 2 ~ t 3 时间段,弹簧秤示数为540 N ,大于人的实际重量,因此电梯处于超重状态,具有向上的加速度.如果电梯一下开始向下运动,则t 0 ~ t 1 时间段内电梯向下加速,t 1 ~ t 2 时间段内电梯匀速运动,t 2 ~ t 3 时间段内电梯减速下降,故A 正确;人进入电梯时,电梯的速度应为零,即处于静止状态,B 、D 选项中电梯的初速度不为零,与实际不合,故B 、D 错误,在C 项的v - t 图像中,电梯在t 0 ~ t 1 时间内具有向上的加速度,与上面分析的不合,故C 错误.故正确答案为A.点评 超重和失重,是力和运动的连接点,在日常生活中的应用到处可见.有的同学因为审题不清,不能透彻理 解超重、失重问题,容易将两者弄混.透视5 通过 F - t 图像考查功和功率问题通过 F -t 图像考查物体的功和功率时,需要考生能够从图像中分析力的特点,然后再求出速度和位移,最后再求物体的功和功率,解题时,常常需要利用“ F -t 图像的面积表示冲量”这一特点来分析问题.【题5】一物体在外力的作用下从静止开始做直线运动,合外力方向不变,大小随时间的变化如图所示.设该物体在t和2 t时刻相对于出发点的位移分别是x1和x2,速度分别是v1和v2,合外力从开始至t时刻做的功是W1,从t至2 t时刻做的功是W2,则( )A. x2=5 x1,v2=3 v1B. x1=9 x2,v2=5 v1C. x2=5 x1,W2=8 W1D. v2=3 v1,W2=9 W1【解析】根据F -t 图像面积意义和动量定理有mv =F t ,mv=F t + 2F t ,则v =3 v ;应用位移公式知x =v1 t ,1 0 02 0 0 0 0 2 1 1 2 0 x =v1+v2 t+v1 t ,则x =5 x ,A正确,B错误;在第一个t 内对物体应用动能定理有W =1mv 2 ,在第二个t 内2 2 0 2 0 2 1 0 1 2 1 0对物体应用动能定理有W =1mv2 -1mv2 ,则W =8 W ,,C正确,D错误.由以上分析可知,正确答案为A、C.2 2 2 2 1 2 1【题6】质量为m 的物体静止在光滑水平面上,从t =0时刻开始受刭水平力的作用.力的大小F 与时间t 的关系如图所示,力的方向保持不变,则( )5F 2tA.3 t 时刻的瞬时功率为0 00 m15F 2tB.3 t 时刻的瞬时功率为0 00 m23F 2tC.在t =0到3 t 这段时间内,水平力的平均功率为0 00 4m25F 2tD.在t =0到3 t 这段时间内,水平力的平均功率为0 0【解析】0~2 t 内物体的加速度为 a =F6m,在2 t 时刻的速度为v =a 2t =2Ft0 ,在3 t 时刻的瞬时速度为0 m 0 1 0 m 0v =v + 3a t =5Ft0 ,故3 t 时刻的瞬时功率为2 1 05F tm 015F 2t 1 25F 2t 2P = 3F 0 0 = 0 0 ,A错误,B正确;在t =0到3 t 这段时间内,由动能定理可得W =∆E =mv 2 = 0 0 ,则0 m m 025F 2tk 2 2 2m这段时间内的平均功率为P = 0 0 ,C错误,D正确.故正确答案为B、D.6m透视6 通过 F -t 图像考查冲量问题冲量是个过程量,其表达式为I =Ft .当谈及冲量时,一定要指出是哪段时间内的冲量.如果物体受到的力是恒力,可以用该表示式计算;如果物体受到的力是变力,可以利用F -t 图像来求变力的冲量,即F -t 图线与时间轴所围面积表示一段时间内冲量的大小.【题7】用电钻给建筑物钻孔时,钻头是匀速钻进的,钻头所受的阻力 f 与时间t 的关系如图所示,若第1 s内阻力的冲量为100 N•s,求5s内阻力的冲量.【解析】根据 f -t 图像可知,阻力与时间成正比的关系,设阻力与对间的表达式为 f =kt ,由于第1s内阻力的冲量为100 N•s,根据冲量的大小和 f -t 图像所围面积的关系可知100 =1⨯12 k2解上式可得k =2005 s内阻力的冲量为I =1ft =1⨯ 200⨯ 522 2N•s =2.5×103N•s透视7 通过 F -t 图像考查电磁感应问题F -t 图像反映了物体所受的力与时间的变化关系,而物体的受力又决定了物体的运动状态.当物体的运动状态改变时,在磁场中所产生的磁感应强度相应地也要改变.面对这样的问题,需要根据 F -t 图像和物理规律建立方程求解,【解析】图甲所示,一对平行光滑轨道放置在水平面上,两轨道间距l =0.2 m,电阻R =l.0Ω,有一导体杆静止地放在轨道上,与两轨道垂直,杆及轨道的电阻皆可忽略不计,整个装置处于磁感应强度 B =0.5 T的匀强磁场中,磁场方向垂直轨道面向下.现用一外力F 沿轨道方向拉杆,使之做匀加速运动,测得力F 与时间t 的关系如图乙所示.求杆的质量和加速度.【解析】根据题意可知,杆在外力的作用下做匀加速直线运动,初速度为零,设做匀加速直线运动的加速度为a ,在t 时刻杆的瞬时速度为v ,则杆切割磁感线产生的感应电动势为E =Blv =Blat ①闭合回路中的感应电流为I =E=Blat②R R杆受到的安培力为F安=BIl ③根据牛顿第二定律可得F安-BIl =ma ④B2l 2联立以上几式可得 F =m a +atR⑤B2l 2分析⑤式可知, F 与时间t 成线性关系,斜率为R,截距为ma .将F 的表达式与F -t 图像比较,在图像中找两点代入⑤式就可求出质量和加速度.在图像中取点(0,1)和(20,3)代入解得 a =10 m/s2 ,m =0.1 kg。

ch5460a-c

ch5460a-c

北高智电子有限公司 Honestar Technologies Co., Ltd.
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使用该模式时cs5460a工作时不需要外加微控制器因此当电表用于大批量住宅电能测量时可降低电表的成本
CS5460A
单相双向功率/电能 IC
特性
l l l l l l l l l l l l l l l 电能数据线性度:在1000 :1 动态范围内线性度 为 ±0.1% 片内功能:可以测量电能(有功),I *V,IRMS 和 VRMS ,具有电能-脉冲转换功能 可以从串行EEPROM 智能“自引导”,不需要微 控制器 AC 或DC 系统校准 具有机械计度器/步进电机驱动器 符合IEC687/1036 ,JIS 工业标准 功耗<12mW 优化的分流器接口 V对I的相位补偿 单电源地参考信号 片内2.5V 参考电压(最大温漂60ppm/℃) 简单的三线数字串行接口 看门狗定时器 内带电源监视器 电源配置 VA+ = +5 V; VA- = 0V; VD+ = +3.3V~+5 V
概述
CS5460A 是一个包含两个ΔΣ模 - 数转换 器(ADC)、高速电能计算功能和一个串行接 口的高度集成的ΔΣ 模-数转换器。 它可以精确 测量和计算有功电能、 瞬时功率、 IRMS 和VRMS , 用于研制开发单相2 线或3 线电表。CS5460A 可以使用低成本的分流器或互感器测量电流, 使 用分压电阻或电压互感器测量电压。CS5460A 具有与微控制器通讯的双向串口, 芯片的脉冲输 出频率与有功能量成正比。CS5460A 具有方便 的片上AC/DC 系统校准功能。 “自引导”的特点使 CS5460A 能独自工 作, 在系统上电后自动初始化。 在自引导模式中, CS5460A 从一个外部EEPROM 中读取校准数 据和启动指令。使用该模式时,CS5460A 工作 时不需要外加微控制器, 因此当电表用于大批量 住宅电能测量时,可降低电表的成本。 订货信息: CS5460A-BS -40℃~+85℃ 24 引脚 SSOP

CHIPONE培训资料-集创触控IC选型及项目开发流程介绍

CHIPONE培训资料-集创触控IC选型及项目开发流程介绍

32Bit MCU+DSP
32K Flash 4K SRAM
6*6*0.75 I2C/SPI
Copyright © Chipone Corp. all rights reserved.
2
2013-10-16
各家触控IC介绍 ‐ 敦泰
CONFIDENTIAL
厂商 敦泰
型号
FT5216 FT5316 FT5406
5
互电容
10
互电容
DITO条形、单面跨桥
10
16*10 23*14 23*12
QFN40 QFN48 QFN48
思立微 GSL2682
互电容
单层多点
10
23*12
QFN48
GSL3670 GSL3680 GSL915 GSL960 GSL968
互电容 互电容 互电容 互电容 互电容
DITO条形、单面跨桥
北京集创北方科技股份有限公司
内容
各家IC介绍及替换选型 集创北方触控IC选型表 集创北方触控项目开发流程
CONFIDENTIAL
Copyright © Chipone Corp. all rights reserved.
2013-10-16
各家触控IC介绍‐集创北方
CONFIDENTIAL
厂商
型号
自电容/ 互电容
可以支持图案
触控 通道数 点数 (Tx * Rx)
支持尺寸
ICN8302M 互电容 DITO条形、单面跨桥 5 15*10 2.8"-4.0"
封装类型 QFN40
MCU Flash/RAM
8051+DSP
32K Flash 4K SRAM

CL05A106MQ5NUNC中文资料

CL05A106MQ5NUNC中文资料

物料编号CL05A106MQ5NUNC参数_易容网
MLCC即是多层陶瓷电容片式,是电子信息产品不可或缺的基本组件之一。

我国MLCC的生产起步在80年代初,行业早期主要是在外资企业的带动下发展起来的,近年来国内企业在技术上实现突破,行业国产化成效显著,并推动了MLCC产量迅速增长。

目前,MLCC的应用领域已从手机、电脑、电视机等消费电子领域,逐步拓展到新能源发电、新能源汽车、节能灯具、轨道交通、直流输变电、三网融合、高清电视、机顶盒、手机电视等多个行业。

对于这个悄悄活跃在人们生活中的元件你又知道多少呢.
本次易容网为大家推荐比较常用的MLCC三星 | Samsung品牌的料号CL05A106MQ5NUNC相关参数

容网是深圳市易容信息技术有限公司独自研发的全球最大的MLCC搜索采购服务网站,2014年创立于深圳市南山区,全国首家电子元器件行业电容元件的搜索引擎及o2o商务服务平台。

易容网()现已建成全球最大的MLCC电容搜索引擎数据库,包含全球25家电容生产厂商超过28万组MLCC产品数据,用户可根据行业应用、物料编号、规格参数等信息快速的找到所有相关的MLCC电容数据。

易容网在搜索服务的前提下还提供村田、TDK、国巨、太阳诱电、风华高科等常见品牌产品的o2o商务服务,让企业客户实现询价、报价、在线订单、出库、实时物流、签收、账期服务等在线一站式商务服务体验。

国内外电子管代换

国内外电子管代换

国内外电子管代换常用型号管芯结构主要用途国外同类型号代备注5X4G 直热式双阳极二极管小功率全波整流氧化物阴极5Z3P 直热式双阳极二极管小功率全波整流5T4、5ц3C、CV1861、5R4GY、U52、CV1071、5V3、5AU4、5U4G氧化物阴极5Z4P 旁热式双阳极二极管小功率全波整流*5B×1、*5ц4C,GZ30、CV2748、5Z4G/GT 氧化物阴极5Z1P 直热式双阳极二极管小功率全波整流氧化物阴极5Z2P 直热式双阳极二极管小功率全波整流5W4、5Y3G、80、U50 氧化物阴极5Z8P 旁热式双阳极二极管全波整流*5ц8C 氧化物阴极5Z9P 旁热式双阳极二极管全波整流*5ц9C 氧化物阴极6Z4 旁热式双阳极二极管全波整流*6ц4П、6B×4、6×4、6Z31 共阴极6Z5P 旁热式双阳极二极管小功率全波整流*6ц5C 共阴极6H2 旁热式双阳极二极管检波、整流*6×2П、6AL5、C 氧化物阴极6C1 旁热式三极管宽带电压放大*6C1П、CV664、9002 氧化物阴极6C3 旁热式三极管宽带电压放大*6C3П阴地三极管6C4 旁热式三极管宽带电压放大*6C4П栅地三极管6C5P 旁热式三极管低频电压放大6C5GT、*6C5C、6C5 、CV1067、L63氧化物阴极6C6B 旁热式三极管低频电压放大5703、CV3917、*6C6Ь氧化物阴极6C7B 旁热式三极管低频电压放大*6C7Ь氧化物阴极6C12 旁热式三极管宽带电压放大EC88、5842 高S、低N6C31B-Q 旁热式三极管电压放大*6C31Ь-B 氧化物阴极6C32B-Q 旁热式三极管电压放大*6C32Ь-B 遥截止三极管6N1 旁热式双三极管低频电压放大*6H1П、6AQ8、AA61、ECC40/82 氧化物阴极6N2 旁热式双三极管低频电压放大*6H2П、6AX7、6A V7、ECC41 氧化物阴极6N3 旁热式双三极管高频电压放大*6H3П、6A8Q、2C51、ECC42 氧化物阴极6N4 旁热式双三极管低噪声电压放大ECC83、12A×7 高μ、低N6N5P 旁热式双三极管低频功率放大*6H13C、6AS7、CV2523、6NS7G/GT 低Ri6N6(T)旁热式双三极管低频电压放大*6H6П、E182CC、12BH7 氧化物阴极6N7P 旁热式双三极管低频功率放大6H7、*H7C、6N7/G/GT共阴极6N8P 旁热式双三极管低频电压放大*6H8C*6H8M、6SN7、6F8G、CV181、QB65、ECC32 氧化物阴极6N9P 旁热式双三极管低频电压放大*6H9C、6SL7、ECC35、6SC7、6CY7 高μ6N10 旁热式双三极管低频电压放大*6H10M、12A V7A、E82CC、CV491 氧化物阴极6N11 旁热式双三极管宽带电压放大*6H23П、6DJ8、ECC84、E88CC、6922、CV2492 高S、低RI、N6N12P 旁热式双三极管低频电压放大*6H12C、TS229、5687氧化物阴极6N13P 旁热式双三极管低频功率放大*6H13C、6AS7、CV2523、6NS7G/GT 低内阻6N15 旁热式双三极管低频电压放大*6H15П、6J6WA、6CC31、CV858 共阴极6N16B 旁热式双三极管低频电压放大氧化物阴极6N17B 旁热式双三极管低频电压放大*6H17Ь、6112、CV5007 氧化物阴极6N21B-Q 旁热式双三极管低频电压放大氧化物阴极6N23 旁热式双三极管低频电压放大6DJ8、ECC88、PCC88高μ低N6J1 旁热锐止五极管宽带电压放大*6ж1П、6AK5、6BC5、EF40、EF95、CV850 高频管6J1B 锐截止五极管宽带电压放大*6ж1Ь、CV3929、61489、CK5702/7083 旁热式阴极6J2 锐截止五极管宽带电压放大*6ж2П、6AS6、CV2522、EF11/732、CV4011 旁热式阴极6J2B 锐截止五极管宽带电压放大*6ж2Ь、CK5639 旁热式阴极6J3 锐截止四极管宽带电压放大*6ж3П、EF96、CV848、6BC6、6AG5 束射四极管6J4 锐截止五极管宽带电压放大*6ж4、6136、6BX6、6AC7、EF94 旁热式阴极6J4P 锐截止五极管宽带电压放大*6ж4C、CV849、1852 旁热式阴极6J5 锐截止高频管宽带电压放大*6ж5П、EF80、CV2521、6F36、6AH6 高S、束射四极管6J7 旁热式阴极五极管低频电压放大6*7 、OM5C、CV1056 、CV1404、EF36、NR49、VR56、KTW61、EF37A、5A/157D、CV358、CV5080、OM5B、W310A、57、STR4141、低噪声N 6J8 锐截止五极管低频电压放大CV2901、6SJ7、6CF8、6267、EF16、EF86、2729 低噪声N6J8P 锐截止五极管宽带电压放大*6ж8C、5693、EF6、EBC3、CV592 旁热式阴极6J9 锐截止五极管宽带电压放大*6ж9П、EF861 旁热式阴极6J20 锐截止五极管宽带电压放大*6ж20П空间电荷栅6J23 高互导双五极管宽带电压放大*6ж23П阴极框架栅6J23B-Q 锐截止五极管宽带电压放大*6ж23B-K 低振动噪12J1S 锐截止五极管小功率放大*12ж1л氧化物阴极6K1B 遥截止五极管宽带电压放大*6K16K3P 遥截止五极管宽带电压放大*6K3、6SK7、6K7、KTZ63、CV1074、6D6、6SG7 旁热式阴极6K4 遥截止五极管宽带电压放大*6K4П、6BA6、6DA6、EF89/93、5749、6K5 旁热式阴极6K5 遥截止五极管宽带电压放大同6K4 旁热式阴极12K3P 遥截止五极管宽带电压放大12K3、12SK7/GT 旁热式阴极2P2 输出四极管低频功率放大2П2П、DL92、1S4T、1L33、1L34 直热式阴极2P3 束射四极管低频功率放大3A4、1662、CV807、DL93 直热式阴极2P19B 五极管功率放大直热式阴极2P29 直热式五极管功率放大*2、*2П29л氧化物阴极4P1S 直热式阴极功率放大*4П1л、4L2D 五极管6P1 束射四极管低频功率放大*6П1П、6AQ5、6BW6、6L31、EL14、90 旁热式阴极6P3P 束射四极管低频功率放大*6П3C、*6л6C、6L6、6L6G/GT、1614、1619、1622 同型:1631、6TT3C6P4P 束射四极管低频功率放大旁热式阴极6P6P 旁热式束射四极管低频功率放大*6П2、*6П6C、6Φ6、1611、1613、1621、6K6、CV509、6V6GT、CV510、CV1912、CV511、6N6C、KT636P9P 旁热式五极管宽带功率放大*6П9C、CV569 氧化物阴极6P13P 束射四极管低频功率放大*6П13C(旁热)旁热式阴极6P14P 旁热式五极管宽带功率放大*6П14П、6BQ5、N709、EL84、CV2975、7320、6L40 氧化物阴极6P15P 旁热式五极管低频功率放大6CH6、6CW5、EL180、EL821、CV2127、12BY7A 氧化物阴极6P25B 束射四极管低频功率放大*6П25Ь、EL71、5902 氧化物阴极6P30B-Q 束射四极管低频功率放大*6П30Ь-B(旁热)氧化物阴极6P31B-Q 束射四极管低频功率放大*6П31Ь-B(旁热)氧化物阴极13P1P 输出五极管低频功率放大*13П1C 旁热式阴极6S6 高S五极管电压/功率放大*6Э1П(旁热)氧化物阴极6T1 高频双四极管推挽输出QM322、5656 旁热式阴极6A2 七极电子管TUNER变频CV453、EK90、X77、*6A2П、6BE5、5750 旁热式阴极6F1 三极-五极管变频/电压放大*6Φ1П、6BL8、6C16 旁热式阴极6F2 三极-五极管变频/电压放大6Φ2П、6U8、6GH、CV5065、ECF82、6BL8 旁热式阴极6G2P 双二极-三极管检波、电压放大*6Γ2、6SQ7、6SQ7GT/G 旁热式阴极WE300B 直热式三极管功率放大300B、4300A 古典式低内阻FU-5 直热式三极管低频功率放大T100-1、RK57、ML714、NU-150、CV2622、CV2768 F123A、GL805、HF150、CV25 FU-7 旁热式四极管大S功率放大QV05-25、RK39、HY-61、QE06-50、CV124、807 5B/250A、807V、5S1FU-13 直热束射四极管功率放大*гY-13、813、4B13 TT10 、QY2-100、QB2、250、CV278、4T100 CV1927、3874A、5C/100AFU-15 直热束射五极管中功率放大*гY-15 氧化物热子FU-17 双束射四极管中功率放大*гY-17、CV3517、6360、QQV03-10、QQV03/12 旁热式阴极FU-25 旁热束射四极管宽带功率放大1625、FD-25 氧化物阴极FU-29 双束射四极管宽带功率放大*гY-29、829B 旁热式阴极FU-31 直热式三极管宽带功率放大2T26、826、826“RCA”钍钨阴极FU-32 双束射四极管宽带功率放大*гY-32、RS1019、TT20SRS4452、QQE03/20、P2-12 与FU-29类同FU-33 直热式三极管功率放大ES833、CV635、B142、3578、833A、5T33 钍钨阴极FU-46 旁热式五极管中功率放大QV06-20、P40、QE05/40、7212、6146、2B46 氧化物阴极FU-50 束射五极管宽带功率放大*гY-50、SRS552、P50/2旁热式阴极FU-811 直热式三极管宽带功率放大*г-811、811A 钍钨阴极FU-250F 旁热式四极管宽带功率放大4C×250A 金属陶瓷型EL81 旁热式五极管功率放大6CJ6 氧化物阴极845 直热式三极管功率放大UV-845 Po≈100W6CY7 旁热式双二极管电压放大每组**管特性参数不同Rg<100kΩ6CX8 旁热式三极管-五极管电压放大和P-K分割比6U9、6F2靓高S18045 旁热式五极管小型功放作耳机放大有极佳表现Po>1WFC4 旁热式三极管电压放大*гC4 金属陶瓷管6C22D 旁热式三极管电压放大5876 金属陶瓷管6550 旁热束射四极管功率放大KT88 氧化物阴极KT100 旁热束射四极管功率放大KT94 氧化物阴极PL81 旁热式五极管功率放大21A6 氧化物阴极EL34 旁热式五极管功率放大6CA7、KT66 氧化物阴极2A3 直热式三极管功率放大*2C4、AD1、6A3、6B4G、6C4C211 直热式三极管功率放大FD422 直热式五极管功率放大2E22 6C33C-B 旁热式三极管功率放大欧美电子管置换表E83F 6689E84L 7320E88C 6DL4E88C 8255E88CC 6922E89F 6DG7E902 6X4E90C 5920E90CC 5920E90F 6BH6E90Z 6X4E91AA 5726E91H 6687E91N 5727E95F 6AK5E99F 6BJ6EA41 6CT7EA50 2B35EA76 6489EAA901 5726EAA91 6AL5EABC80 6AK8EAF41 6CT7EAF42 6CT7EAM86 6GX8EB34 6H6EB91 6AL5EBC3 6BD7AEBC41 6CV7EBC80 6BD7EBC81 6BD7EBC90 6AT6EBC91 6A V6EBF32 6B8EBF41 6CJ5EBF80 6N8EBF81 6AD8EBF83 6DR8EBF89 6DC8 EC1000 8254 EC22 6R4EC55 5861 EC70 5718 EC71 5718 EC80 6Q4EC806S 6CM4 EC81 6R4EC84 6AJ4 EC86 6CM4 EC88 6DL4 EC88 8255 EC90 6C4EC900 6HA5 EC91 6AQ4 EC92 6AB4 EC93 6BS4 EC94 6AF4 EC95 6ER5 EC97 6FY5 ECC180 6BQ7A ECC186 12AU7 ECC189 6ES8 ECC230 6080 ECC32 6SN7GT ECC35 6SL7 ECC70 6021 ECC801 6060 ECC802 6189 ECC803 6057 ECC804 6GA8 ECC81 12AT7 ECC813 6463 ECC82 12AU7 ECC83 12AX7 ECC84 6CW7 ECC85 6AQ8 ECC86 6GM8 ECC863 12DT7 ECC88 6DJ8 ECC89 6FC7 ECC900 6HA5ECF200 6X9 ECF201 6U9 ECF202 6AJ9 ECF80 6BL8 ECF801 6GJ7 ECF802 6JW8 ECF805 6GV7 ECF82 6U8 ECF86 6HG8 ECH113 6CU7 ECH200 6V9 ECH35 6E8G ECH42 6CU7 ECH80 6AN7 ECH81 6AJ8 ECH82 6E8 ECH83 6DS8 ECH84 6JX8 ECL80 6AB8 ECL82 6BM8 ECL821 6CH6 ECL84 6DX8 ECL85 6GV8 ECL86 6GW8 ECLL800 16KH8 ED2 6AL5 ED500 6ED4 EF13 6DA6 EF183 6EH7 EF184 6EJ7 EF190 6CB6 EF22 7A7 EF36 6J7EF37 6J7GT EF39 6K7 EF41 6CJ5 EF70 6487 EF71 5899 EF72 5840 EF73 6488 EF730 5636 EF731 5899 EF732 5840EF732 5901 EF734 6205 EF74 6391 EF80 6BX6 EF81 6BH5 EF811 6EH7 EF812 6EL7 EF814 6EJ7 EF82 6CH6 EF83 6BK8 EF85 6BY7 EF86 6267 EF87 6267 EF89 6DA6 EF89F 6DG7 EF905 5654 EF91 6AM6 EF92 6CQ6 EF93 6BA6 EF94 6AU6 EF95 6AK5 EF96 6AG5 EF97 6ES6 EF98 6ET6 EFL200 6Y9 EH90 6CS6 EK90 6BE6 EL180 12BY7 EL300 6FN5 EL33 6M6G EL34 6CA7 EL36 6CM5 EL37 6L6 EL38 6CN6 EL41 6CK5 EL500 6GB5 EL503 8278 EL504 6GB5 EL505 6KG6 EL508 6KW6 EL71 5902 EL80 6M5 EL802 6LD6 EL803 6CK6EL82 6DY5 EL820 6CK6 EL821 6CH6 EL822 6CH6 EL83 6CK6 EL84 6BQ5 EL85 6BN5 EL86 6CW5 EL90 6AQ5 EL91 6AM5 EL95 6DL5 ELF86 6HG8 ELL80 6HU8 EM34 6CD7 EM35 6U5 EM80 6BR5 EM81 6DA5 EM84 6FG6 EM840 6FG6 EM85 6DG7 EM87 6HU6 EN32 2050 EN91 2D21 EN93 6D4 EQ80 6BE7 EY500 6EC4 EY51 6X2 EY80 6U3 EY81 6R3 EY81F 6V3 EY82 6N3 EY83 6AL3 EY84 6374 EY86 6S2 EY87 6S2A EY88 6AL3 EZ11 6V4 EZ22 7Y4 EZ3 6V4 EZ35 6X5G EZ4 6CA4 EZ40 6BT4 EZ80 6V4EZ90 6X4EZ900 6063EZ91 6A V4F1EL 8278FA6 5677G/50/4K OA2G105/1D OC3G150/3D OD3G75/2D OA3G77 6C6GY501 3BH2GZ30 5Z4GGZ31 5U4GGZ32 5V4GAGZ34 5AR4H2-10 2X2AH52 5U4GBH63 6F5GT HAA91 12AL5 HABC80 19T8 HBC90 12AT6 HBC91 12A V6 HCC85 17EW8 HCH81 12AJ7HD14 1H5GT HD30 3B4HD51 OA2HD52 OB2HD93 1X2BHD94 6BQ6GTB HD96 25BQ6GTB HF121 12AC5HF61 6CJ5HF93 12BA6HF94 12AU6HK90 12BE6HL86 30CW5HL90 19AQ5HL92 50C5HL94 30A5HM04 6BE6HP6 6AM6HY145 1U4HZ50 14Z3 HZ90 12X4 KD21 OA3 KD24 OC3 KD25 OD3KL35 1F5G KT32 25W6GT KT33 25A6 KT61 6M6G KT63 6F6G KT66 6L6GC KT71 50L6GT KT77 6CA7 KT88 6550 KTW63 6J7GT KTZ63 6K7GT KTZ63M 6J7GT KY80 5J2L63 6J5L63B 6J5L77 6C4LC900 3HA5 LC97 3FY5 LCC189 5ES8 LCF200 5X9 LCF201 5U9 LCF80 6LN8 LCF801 5GJ7 LCF802 6LX8 LCF86 5HG8 LCH200 5V9 LCL200 10DX8 LCL82 11BM8 LCL84 10DX8 LCL85 10GV8 LF183 4EH7LF184 4EJ7 LFL200 11Y9LL500 18GB5 LL505 27KG66 LL521 21KQ6 LL86 10CW5 LN119 50BM8LN319 13GC8L Y500 28EC4L Y81 11R3L Y88 20AQ3 LZ319 9A8LZ329 9A8LZ339 9EN7M8063 6AM6M8079 5726M8081 6J6M8096 5763M8100 5654M8121 5840M8136 6189M8137 12AX7A M8162 12AT7W A M8196 5725M8204 5727M8212 5726M8223 OA2W A M8224 OB2W A M8232 6J4W AM8245 6005MU14 6BT4 MV6-5 6SA7GT N119 45B5N14 1C5GTN142 45A5N144 6AM5N147 6M6GN148 7C5N15 3Q5GTN150 6CK5N152 21A6N153 15A6N154 16A5N155 6BN5N16 3Q5GTN17 3S4N18 3Q4N19 3V4N22LL 19KF6N25 3C4N308 25E5N309 15A6N30EL 6LF6N329 16A5N359 21A6N369 16A8N378 15CW5N379 15CW5N389 25GF6N47 6AM5N63 6K6GTN66 6L6GTN709 6BQ5N727 6AQ5N77 6AM5N78 6BJ5OA2 150C1OA2 150C2OA2 150C4OA2 G/50/4K OA2 HD51OA2 QS1207 OA2 S856OA2 SM150-30 OA2 STR108/30 OA2 STR150/30 OA2 STV150/30 OA2W A M8223 OA2W A QS1210 OA3 G75/2D OA3 KD21OA3 QS1205 OA4G PL1267 OA4G RL1267 OA4G Z300T OB2 108C1OB2 HD52OB2 QS1208 OB2 S860OB2 SR55OB2 STV108/30 OB2WA M8224 OB2WA QS1211OBC3 12SQ7 OC3 G105/1D OC3 KD24 OC3 QS1206 OD3 150C3 OD3 G150/3D OD3 KD25 OD3 QS150/40 OD3 VR150 OE3 85A1OF1 6S7OF5 12K7GT OG3 85A2 OG3 SR2OG3 STR85/10 OG3 STV85/10 OH4 12A8 OM3 6H6OM5 6S7OM6 6K7 OSW2190 6AC7 OSW2192 6AG7 OSW2600 6AC7 OSW2601 6AG7 OSW3104 6SA7 OSW3105 6SQ7 OSW3106 6V6GT OSW3107 5CG4 OSW3107 5Z4G OSW3109 6H6 OSW3110 6E5 OSW3111 6SK7 OSW3112 6J5P17A 807 PABC80 9AK8 PC86 4CM4PC88 4DL4PC900 4HA5PC95 4GK5PC97 4FY5 PCC186 7AU7 PCC189 7ES8 PCC805 7EK7 PCC84 7AN7PCC88 7DJ8 PCC89 7FC7 PCE800 9GB8 PCF200 8X9 PCF201 8U9 PCF80 9A8 PCF800 9EN7 PCF801 8GJ7 PCF802 9JW8 PCF805 7GV7 PCF806 8GJ7 PCF82 9U8 PCF86 8HG8 PCH200 9V9 PCL800 16GK8 PCL801 13GC8 PCL82 16A8 PCL84 15DQ8 PCL85 18GV8 PCL86 14GW8 PCL88 16GK8 PD500 9ED4 PF86 4HR8 PF9 6K7 PFL200 16Y9 PH4 6A8 PL1267 OA4G PL21 2D21 PL300 35FN5 PL302 25GF6 PL36 25E5 PL500 27GB5 PL505 40KG6 PL508 17KW6 PL521 29KQ6 PL801 12FB5 PL81 21A6 PL82 16A5 PL820 21A6 PL83 15A6 PL84 15CW5 PLL80 12HU8 PM04 6BA6PM07 6AM6 PM95 6AK6PP6BG 6M6G PY301 19CS4PY500 42EC4PY80 19X3PY800 17Z3PY801 17Z3PY81 17Z3PY82 19Y3PY83 17Z3PY88 30AE3 QA2401 6135QA2404 5726QA2406 12AT7WB QA2407 6201QA2408 5692QB309 12AT7 QB5/1750 6079QB65 6SN7GT QE03/10 5763QE05/40 6146QE05/40H 6159QE06/50 807QL77 6C4QM556 6X4W QM556 6X4W QM557 5654QM558 5725QM559 5726QN77 6AM5 QQE02/5 6939 QQE03/12 6360 QQE03/20 6252 QQE06/40 5894 QQV02-6 6939 QQV03-10 6360 QQV03-20 6252QS1205 OA3QS1206 OC3QS1207 OA2QS1208 OB2QS1209 5651AQS1211 OB2W A QS150/40 OD3QS2404 5726QS2406 12AT7W A QV03-12 5763QV05-25 807QV06-20 6146QW77 6CQ6 QZ77 6AM6R12 6X2R144 6AM6R16 1T2R19 1X2AR20 2J2R3 1W4R52 5Z4GRL1267 OA4G RL21 2D21RS1029 6360RS2 5Z4S6F12 6AM6S856 OA2S860 OB2SM150-30 OA2SP6 6AM6SR2 OG3SR3 0B2SR55 OB2SR56 0A2STR108/30 OA2STR150/30 OA2STR85/10 OG3STV108/30 OB2STV150/30 OA2STV85/10 OG3SU61 6X2T2M05 6J6T6D 2B35T77 6C6TH62 6E8GTM12 6J4TTZ63 6J7U118 31A3U142 31A3U145 31A3U147 6X5G U149 7Y4U150 6BT4U151 6X2U152 19X3U153 17Z3U154 19Y3U191 19CS4 U192 19Y3U193 17Z3U251 17Z3U26 2J2U309 19X3U31 25Z4GT U319 19Y3U329 25BR3 U339 19CS4 U349 17Z3U37 1T2U381 38A3U41 1B3GT U43 6X2U45 6X2U49 2J2U50 5Y3GT U51 5W4GT U52 5U4G U70 6X5G U707 6X4U709 6CA4 U718 6BT4U74 35Z4GT U76 35Z4GT U77 5AR4 U78 6X4U82 7Y4 UAF42 12S7 UBC41 14L7 UBC80 14G6 UBC81 14G6 UBF80 17C8UBF89 19FL8 UCH42 14K7 UCH80 14Y7 UCH81 19D8 UCL82 50BM8 UF41 12AC5 UF89 12AD6 UL41 45A5 UL84 45B5 UM84 12FG6 UN954 954 UN955 955 UQ80 12BE7 UT85 38A3 UU12 6CA4 UU5 6BT4 UU9 6BT4 UY41 31A3 UY42 31A3 UY82 55N3 UY89 38A3 V177 6CQ6 V2M70 6X4V311 31A3V312 31A3V61 6BT4 V741 6C4V884 6CQ6 V886 6AM5 VP12D 12C8 VP6 6CQ6 VR150 OD3 VT83 83W110 13EC7 W118 12AC5 W119 13EC7 W142 12AC5 W143 7A7W145 12AC5 W147 6K7W148 7A7W149 7B7W150 6CJ5 W17 1T4W25 1AJ4W61 6K7W63 6K7W719 6BY7W727 6BA6W739 6EC7W76 12K7W77 6CQ6W81 7A7 WD142 12S7 WD150 6CT7 WD709 6N8 WT301 83X107 18FX6X119 19D8X14 1A7GT X142 14K7X147 6E8GX148 7S7X150 6CU7X155 6BZ8X17 1R5X18 1AC6X20 1AC6X25 1AB6X319 6351X61M 6E8GX63 6ABX64 6L7X65 6E8X719 6AJ8X71M 12K8X727 6BE6X73 6D8X73M 6D8X76M 12K8GT X77 6BE6X79 6AE8X81 7S7 XAA91 3AL5 XB91 3AL5 XC900 2HA5 XC95 2ER5 XC97 2FY5XCC189 4ES8 XCC82 7AU7 XCF80 4BL8 XCF801 4GJ7 XCF82 5U8 XCF86 2HR8 XCH81 3AJ8 XCL82 8B8 XCL85 9GV8 XF183 3EH7 XF184 3EJ7 XF80 3BX6 XF85 3BY7 XF94 3AU6 XL36 13CM5 XL500 13GB5 XL84 8BQ5 XL86 8CW5 XXB 3C6 XXD 14F7 XXFM 7X7 XY88 16AQ3 Y25 1M3Y64 6U5 YC95 3ER5 YC97 3FY5 YCC189 5ES8 YCF86 5HG8 YCL84 10DX8 YF183 4EH7 YF184 4EJ7 YL84 10BQ5 YL86 10CW5 Z14 1N5GT Z150 6CU7 Z152 6BX6 Z300T OA4G Z329 7ED7 Z550M 8453 Z63 6J7Z719 6BX6 Z729 6267Z749 6EL7Z77 6AM6ZA2 954ZD152 6N8ZD17 1S5ZD25 1AH5ZZ1000 822812ZF5 85-LF1 12ZF5 32B812HF6 12HF6A 12HF6 ECC121 12HF6 ECC121A 6LQ6 6JM60A2 AG5211 0A2 SR560B2 SR3108C1 OB210BQ5 YL8410C14 19D810CW5 LL8610CW5 YL8610DE7 9R-AL1 10DX8 LCL200 10DX8 LCL8410EB8 11JE8 10F18 13EC7 10F9 12AC5 10GN8 11JE8 10GV8 LCL85 10HF8 11JE8 10JA8 11JE8 10JY8 11JE8 10LD13 14G6 10LD3 14L7 10LZ8 11JE8 10P18 45B5 10PL12 50BM8 11BM8 LCL82 11JE8 10EB8 11JE8 10GN8 11JE8 10HF8 11JE8 10JA8 11JE8 10JY8 11JE8 10LZ8 11R3 L Y81 11Y9 LFL200 121VP 12AC5 12A6 ABC91 12A8 OH4 12AC5 10F9 12AC5 121VP 12AC5 HF121 12AC5 UF41 12AC5 W118 12AC5 W142 12AC5 W145 12AD6 UF89 12AD7 12AX7 12AF3 12BR3 12AH8 20D3 12AJ7 HCH81 12AL5 HAA91 12A T6 HBC90 12A T7 A2900 12A T7 B152 12A T7 B309 12A T7 B73912A T7 E81CC 12A T7 ECC81 12A T7 QB309 12A T7W A CC81E 12A T7W A M8162 12A T7W A QS2406 12A T7WB QA2406 12AU6 HF9412AU7 12AX7 12AU7 B32912AU7 B74912AU7 E2163 12AU7 E82CC 12AU7 ECC186 12AU7 ECC82 12AU7A 12AX7 12A V6 12BC32 12A V7 12R-LL3 12AX7 12AD7 12AX7 12AU7 12AX7 12AU7A 12AX7 12AX7A 12AX7 12BZ7 12AX7 12DF7 12AX7 12DM7 12AX7 12DT7 12AX7 6L1312AX7 702512AX7 7025A 12AX7 B33912AX7 B75912AX7 E2164 12AX7 ECC83 12AX7A 12AX7 12AX7A M8137 12B-B14 13GB5 12BA6 12F31 12BA6 HF9312BC32 12A V6 12BE6 12H31 12BE6 HK9012BE7 UQ8012BQ6GT 12G-B612BR3 12R-K19 12BY7 EL180 12BZ7 12AX7 12C8 VP12D 12D4A 12G-K17 12DF7 12AX7 12DM7 12AX7 12DT7 12AX7 12DT7 ECC863 12E13 655012F31 12BA612FB5 30P1212FB5 PL80112FG6 UM8412FQ7 12R-LL5 12G-B3 12GW6 12G-B6 12BQ6GT 12G-B7 13CM5 12G-K17 12D4A 12GW6 12G-B3 12H31 12BE6 12HU8 PLL80 12K7 W7612K7GT OF512K8 X71M12K8GT X76M 12Q7GT DH7412Q7GT DH7612R-K19 12BR3 12R-LL3 12AV7 12R-LL5 12FQ7 12S7 UAF42 12S7 WD142 12SN7GT B3612SQ7 OBC312X4 HZ9013CM5 12G-B7 13CM5 XL3613D2 6SN7GT 13D3 615813EC7 10F1813EC7 W11013EC7 W11913GB5 XL500 13GC8 30PL1 13GC8 30PL10 13GC8 LN319 13GC8 PCL801 141DDT 14L7 141TH 14K7 14F7 XXD14G6 10LD13 14G6 DH119 14G6 UBC80 14G6 UBC81 14GW8 PCL86 14K7 141TH 14K7 UCH42 14K7 X142 14L7 10LD3 14L7 141DDT 14L7 DH118 14L7 DH142 14L7 UBC41 14Y7 UCH80 14Z3 HZ50 150B2 6354 150C1 OA2 150C2 OA2 150C3 OD3 150C4 OA215A6 N153 15A6 N309 15A6 PL83 15CW5 30P18 15CW5 N378 15CW5 N379 15CW5 PL84 15DQ8 PCL84 163PEN 16A5 16A 6AM5 16A5 163PEN 16A5 30P16 16A5 N154 16A5 N329 16A5 PL8216A8 N36916A8 PCL82 16AQ3 XY8816GK8 30PL13 16GK8 30PL14 16GK8 PCL800 16GK8 PCL88 16KH8 ECLL800 16Y9 PFL200 171DDP 17C817C8 171DDP 17C8 17N817C8 UBF80 17EW8 HCC85 17KW6 PL508 17N8 17C817Z3 A6117Z3 PY80017Z3 PY80117Z3 PY8117Z3 PY8317Z3 U15317Z3 U19317Z3 U25117Z3 U34918AK5 602818FX6 X10718GB5 LL500 18GD6 19M-R10 18GD6 19M-R9 18GV8 PCL85 19AJ8 19D819AQ5 HL9019BD 19X319CS4 PY301 19CS4 U19119CS4 U33919D8 10C1419D8 19AJ819D8 UCH81 19D8 X11919FL8 UBF89 19KF6 N22LL19M-R10 18GD6 19M-R9 18GD6 19SU 19Y3 19T8 HABC80 19U3 19X3 19W3 19X3 19X3 19BD 19X3 19U3 19X3 19W3 19X3 PY80 19X3 U152 19X3 U309 19Y3 19SU 19Y3 PY82 19Y3 U154 19Y3 U192 19Y3 U3191A3 1D131A3 DA901A3 DAF90 1A5G DL311A7GT DK32 1A7GT X141AB6 1C31AB6 1H351AB6 DK96 1AB6 DK97 1AB6 X251AC6 1C21AC6 DK92 1AC6 X181AC6 X201AD4 DF621AD4 DF652 1AD4 DF668 1AH5 1FD11AH5 DAF96 1AH5 ZD251AJ4 1F11AJ4 DF961AJ4 W251AN5 DAF97 1AN5 DF971AQ5 1H331AS5 1U5SF 1B3GT DY30 1B3GT U411BG2 DY51 1BQ2 DY802 1C1 1R51C2 1AC61C3 1AB61C5GT DL35 1C5GT N141D13 1A31D5 40SUA 1E3 DC801F1 1AJ41F2 1L41F3 1T41F5G KL35 1FD1 1AH5 1FD9 1S51G50 2050A 1H2 1S21H33 1AQ5 1H33 1R5SF 1H35 1AB6 1H5GT DAC32 1H5GT HD14 1L4 1F21L4 DF921M1 1N31M3 DM70 1M3 Y251N3 1M11N3 DM71 1N5GT DF33 1N5GT Z141P1 3C41P10 3S41P11 3V41Q5GT DL36 1R5 1C11R5 DK91 1R5 X171R5SF 1H331RK23 1S21S2 1H21S2 1RK23 1S2 DY861S2A DY87 1S4 DL911S5 1FD91S5 DAC21 1S5 DAF91 1S5 DF261S5 ZD171S5SF 1AR5 1T2 R161T2 U371T4 1F31T4 DF911T4 W171U4 DF904 1U4 HY145 1U5 DAF92 1U5SF 1AS5 1V6 DCF60 1W4 R31X2 1X2A 1X2 1X2B 1X2A 1X21X2A DY80 1X2A R191X2B 1X21X2B HD93 2050 BA2 2050 EN32 2050A 1G50 20A3 2D21 20AQ3 L Y88 20D3 12AH8 20D4 6AJ8 213PEN 21A6 21A6 213PEN 21A6 N152 21A6 N359 21A6 PL81 21A6 PL82021KQ6 LL521 25A6 KT3325BQ6GT 25G-B6 25BQ6GTB HD96 25BR3 25R-K19 25BR3 U32925E5 N30825E5 PL3625G-B6 25BQ6GT 25GF6 30P1925GF6 30P425GF6 N38925GF6 PL30225R-K19 25BR3 25W6GT KT32 25Z4GT U3127GB5 PL500 27KG66 LL505 28EC4 L Y500 29KQ6 PL5212B/250A 8072B35 6D12B35 EA502B35 T6D2D21 20A32D21 4G280K 2D21 ASG512 2D21 EN912D21 PL212D21 RL212ER5 XC952FY5 XC972HA5 XC9002HR8 XCF862J2 R202J2 U262J2 U492X2 2X2A2X2 2Y22X2A 2X22X2A H2-102Y2 2X230A5 HL9430AE3 PY8830C1 9A830C15 9EN7 30C18 7GV7 30CW5 HL86 30F5 7ED7 30FL1 9GB8 30L1 7AN7 30L15 7EK7 30P12 12FB5 30P16 16A5 30P18 15CW5 30P19 25GF6 30P4 25GF6 30PL1 13GC8 30PL10 13GC8 30PL12 16A8 30PL13 16GK8 30PL14 16GK8 311SU 31A3 31A3 311SU 31A3 U118 31A3 U142 31A3 U145 31A3 UY41 31A3 UY42 31A3 V311 31A3 V312 32F 95635FN5 PL300 35W4 HY90 35Z4GT U74 35Z4GT U76 38A3 U119 38A3 U381 38A3 UT85 38A3 UY89 3A4 DL93 3A4 E1485 3A5 DCC90 3AJ8 XCH81 3AL5 XAA91 3AL5 XB91 3AU6 XF943B4 HD303BH2 GY501 3BX6 XF803BY7 XF853BZ6 3M-V7 3C4 1P13C4 DL963C4 N253C6 XXB3D6 DL293DK6 3M-R24 3EH7 XF183 3EJ7 XF184 3ER5 YC953FY5 LC973FY5 YC973HA5 LC900 3M-R24 3DK6 3M-V7 3BZ63Q4 DL953Q4 N183Q5GT DL33 3Q5GT N153Q5GT N163S4 1P103S4 DL923S4 N173S4SF 3W43V4 1P113V4 DL943V4 N193W4 3S4SF 40KG6 PL505 40SUA 1D542EC4 PY500 451PT 45A545A5 451PT 45A5 BF451 45A5 N142 45A5 UL41 45B5 10P18 45B5 N11945B5 UL844BL8 5R-HP1 4BL8 XCF80 4BS8 4R-HH2 4CM4 PC864DL4 PC884EH7 LF183 4EH7 YF183 4EJ7 LF1844EJ7 YF1844ES8 XCC189 4FY5 PC974G280K 2D214GJ7 4GX74GJ7 XCF801 4GK5 PC954GX7 4GJ74HA5 PC900 4HR8 PF864KN8 4R-HH8 4R-HH2 4BS84R-HH8 4KN8 4Y25 80750BM8 10PL12 50BM8 LN119 50BM8 UCL82 50C5 HL92 50L6GT KT71 52KU 5Z4G 54KU 5AQ4 55N3 UY82 5636 EF730 5642 DY70 5651A QS1209 5654 EF905 5654 M8100 5654 QM557 5670 6CC42 5672 DL620 5677 FA6 5678 DF60 5692 6CC10 5692 QA2408 5718 EC70 5718 EC715725 QM558 5726 AA91E 5726 DD77 5726 E91AA 5726 EAA901 5726 M8079 5726 M8212 5726 QA2404 5726 QM559 5726 QS2404 5727 E91N 5727 M8204 5763 M8096 5763 QE03/10 5763 QV03-12 5783 85A3 5823 Z900T 5840 EF72 5840 EF732 5840 M8121 5847 6R-R8C 5847 E182F 5861 EC55 5894 QQE06/40 5899 EF71 5899 EF731 5901 EF732 5902 EL71 5911 DF67 5913 DL67 5920 E90C 5920 E90CC5A/160H 6AM65AQ4 54KU5AR4 GZ345AR4 U775B/250A 8075CG4 OSW3107 5ES8 LCC189 5ES8 YCC189 5GJ7 LCF8015HG8 LCF865HG8 YCF865J6 5M-HH3 5L509 6KG6A5M-HH3 5J65P29 6CN65R-HP1 4BL85S1 8075U4G 5Z105U4G GZ315U4G U525U4GB H525U8 XCF825U9 LCF201 5V4GA GZ325V9 LCH200 5W4GT U515X9 LCF200 5Y3GT U505Z10 5U4G5Z4 RS25Z4G 52KU5Z4G GZ305Z4G OSW3107 5Z4G R526/30L2 6GA8 6005 M8245 6007 DL67 6008 DF67 6021 ECC70 6028 18AK5 6057 ECC803 6060 ECC801 6063 EZ900 6079 QB5/1750 6080 ECC230 6084 E80F 6085 E80CC 6135 QA2401 6146 QE05/40 6146 QV06-20 6158 13D3 6159 QE05/40H 6189 ECC802 6189 M81366201 QA2407 6205 EF734 6218 E80T 6227 E80L 6252 QQE03/20 6252 QQV03-20 6267 6CF8 6267 6F22 6267 8D8 6267 EF86 6267 EF87 6267 Z72962DDT 6CV762TH 6CU762VP 6CJ5 6351 X319 6354 150B2 6360 QQE03/12 6360 QQV03-10 6360 RS1029 6374 EY84 6375 DC70 6391 EF7463TP 6AB8 6463 ECC813 6487 EF70 6488 EF73 6489 EA7664ME 6CD764SPT 6BX4 6550 12E13 6550 7D11 6550 KT8865ME 6BR5 6681 E83CC 6686 E81L 6687 E91H 6688 E180F 6689 E83F66KU 6BT467PT 6CK5 6922 E88CC 6939 QQE02/56939 QQV02-6 6977 DM1606A6 B636A8 6Q86A8 PH46AB X636AB4 EC926AB8 63TP6AB8 ECL806AB8 LN1526AC7 6F106AC7 OSW2190 6AC7 OSW2600 6AD8 EBF816AE8 X796AF4 6T16AF4 EC946AG5 EF966AG6 6P256AG6G BV A264 6AG6G BV A265 6AG7 6L106AG7 OSW2192 6AG7 OSW2601 6AG8 B7296AH6 6F366AJ4 EC846AJ5 6F356AJ8 20D46AJ8 6C126AJ8 6CH406AJ8 ECH816AJ8 X7196AJ9 ECF2026AK5 6F326AK5 DP616AK5 E95F6AK5 EF956AK5 PM056AK6 PM956AK8 6LD126AK8 DH7196AK8 EABC80 6AL3 EY836AL5 6B326AL5 6D26AL5 D1526AL5 D2M96AL5 D7176AL5 D776AL5 DD66AL5 EAA916AL5 EB916AL5 ED26AM5 16A6AM5 6P176AM5 7D96AM5 DD76AM5 DDR76AM5 EL916AM5 N1446AM5 N476AM5 N776AM5 QN776AM5 V8866AM6 5A/160H6AM6 6F116AM6 6F126AM6 8D36AM6 EF916AM6 HP66AM6 M80636AM6 PM076AM6 QZ776AM6 R1446AM6 S6F126AM6 SP66AM6 Z776AN7 ECH806AQ4 6L346AQ4 EC916AQ5 6L316AQ5 BPM04常用电压放大级即前级放大胆管代换表6N1ECC85,6AQ8,6H1л12AX7,ECC83,E83CC,7729,CV4004,B759,CV4926N1012AU7,ECC82,E82CC,7316,CV4003,5814,B749,61896N116DJ8,E88CC,ECC88,6922,ECC189,6J5,6H11N,7308,El88CC 6N8P6SN7,B65,5692,33S30,CV1988,6H8C,6HM,6F8G,16336H8C 6HM,6F8G,1633,9002,6C8G6J8P 6SJ7,6267,EF86,12A T7ECC81,CV4024,6201,B739,A2900,2025,ECC80156N9P 6SL7,5691,33S29,VT2296F2ECF82,6U86N26H2л功率用管代换表6P3P6L6GC,58816P6P6V6GT,5S2,KT63EL346CA7,KT66,7027A6P14EL84,6BQ5,6П14П6N5P6080,6AS7,6H5CFU-5805FU-7807,1625FU-13813FU-4606146BFU-17FU-605 6T5170926T50FU811811AFU812812AGL-211 211300B WE300B,NL50,4300BKT886550,NT99,KT1002A32A3S845845A6360,TY-7整流电子管代换及特性表型号代换型号Bb2V UfV/I I2L(mA)最大型式5U4G5Z3P,U52500V5V/3A2500直热式5Y3GT522P350V5V/2A125直热式5R4GY22S2C900V5V/2A150直热式5T4450V5V/3A250A直热式6Z4350V 6.3V/0.5A50直热式6Z56X5230V 6.3V/0.8A60旁热式6X4325V 6.3V/0.5A70旁热式5Z4P5Z4400V5V/2A125旁热式5AR4GZ34450V5V/1.9A250旁热式部分整流电子管特性表Type filament filament Vmax Imax Cmaxsocketvolts amp.volts mAmp.uF GZ325240030060Oc54GZ345 1.955022560Oc54GZ37CV3785 2.8500350CmaxWE274B526602254Oc5AS45 3.045027540Oc505AU45 3.7540032540Oc505AW45 3.745025010Oc505R4WGY521000150CmaxOc5R4GY5 2.09001504Oc505R4GYA5 2.0750175L loadOc505U4GB53550250CmaxOc505V35 3.842535040Oc505V4G5237517510Oc545W45 1.53501004Oc505Y3GT5235012510Oc505Z45235012540Oc54与12AU7管脚兼容的双三极管Type Heater mu gm rpPp Ep Ip Con.GD,(V)(mmho)(kohm)(W)(V)(mA)Price12BH7A 6.3/12.616.5 3.1 5.33.525011.5A2,200*c12AU7/ECC82 6.3/12.617 2.27.72.7525010.5A1,900*gE80CC/6085 6.3/12.627 2.710 22506A-12RLL3 6.3/12.630 5.5 5.52.815015A-12AY7 6.3/12.640 1.7522.91.52503A-6414 6.3/12.642.5 5.557.652.01808A-5965/E180CC 6.3/12.647 6.7 6.32.41508.5A1,200*c12AT7/ECC81 6.3/12.660 5.510.92.525010A1,900*g12AX7/ECC83 6.3/12.6100 1.662.51.0250 1.2A1,900*g部分双三极管(管脚与12AU7不兼容)Type Heater mu gm rpPp Ep Ip Con.GD,CC(V)(mmho)(kohm)(W)(V)(mA)Price5687 6.3/12.6178.524.218023-1,000*c6350 6.3/12.618 4.6 3.9 415011--6FQ7/6CG7 6.320 2.67.73.52509B*1,800*c6463 6.3/12.620 5.2 3.94.425014.5--E182CC/7119 6.3/12.62415 1.64.512036-2,500*cECC84/6CW7 6.324 6.0-2.09012--E288CC/8223 6.32520 1.25 310030--6DJ8/ECC88 6.33312.5 2.641.89015B2,400*g6922/7308 6.33312.2 2.71.510015B-5670/E396A 6.335 5.5-1.651508.2--6AQ8/ECC85 6.357 5.99.662.525010B1,900*g5755/WE420A 6.3/12.670 1.55-1.01802.1--ECC808 6.3100 1.662.50.5250 1.2-。

LS05-13BxxR3(-F)Series Mornsun高效绿色输入100~500V交流 直流变

LS05-13BxxR3(-F)Series Mornsun高效绿色输入100~500V交流 直流变

5W,DIY AC/DC converterReportCB RoHSUL62368-1EN62368-1IEC62368-1BS EN 62368-1FEATURES●Ultra-wide 85-305VAC and 70-430VDC input voltage range ●Accepts AC or DC input (dual-use of same terminal)●Operating ambient temperature range -40℃to +85℃●Multi application,flexible layout●Compact size,high power density,green power ●Controllable life and adjustable cost ●No-load power consumption 0.1W●Output short circuit,over-current protection●UL/EN/IEC62368safety approval (LS05-13BxxR3series)●EN62368safety approval (LS05-13BxxR3-F series)LS05-13BxxR3(-F)series is one of Mornsun’s highly efficient green power AC-DC Converter series.They feature wide input range accepting either AC or DC voltage,high reliability,low power consumption and reinforced isolation.All models are particularly suitable for industrial control,electric power,instrumentation and smart home applications which have high requirement for dimension and don’t have high requirement on EMC.For extremely harsh EMC environment,we recommend using the application circuit show in Design Reference of this datasheet.Input SpecificationsItemOperating Conditions Min.Typ.Max.Unit Input Voltage Range AC input 85--305V AC DC input70--430VDC Input Frequency 47--63HzInput Current 115V AC ----0.2A 230V AC ----0.1Inrush Current115V AC --20--230V AC--40--Recommended External Input Fuse 1A,slow-blow,required(The actual use needs to be selected according to the application environment)Hot PlugUnavailableSelection GuideCertificationPart No.*Output PowerNominal Output Voltage and Current (Vo/Io)Efficiency at 230V AC(%)Typ.Capacitive Load(uF)Max.UL/EN/IECLS05-13B03R3 3.3W3.3V/1000mA 692200LS05-13B05R35W 5V/1000mA 761500LS05-13B09R39V/560mA 77680LS05-13B12R312V/420mA 79470LS05-13B15R315V/340mA 79330LS05-13B24R324V/210mA 81100ENLS05-13B03R3-F 3.3W 3.3V/1000mA 692200LS05-13B05R3-F5W 5V/1000mA 761500LS05-13B09R3-F 9V/560mA 77680LS05-13B12R3-F 12V/420mA 79470LS05-13B15R3-F 15V/340mA 79330LS05-13B24R3-F24V/210mA81100Note:1.The nominal output voltage refers to the voltage applied to the load terminal after adding external circuits.2.If the product is used in a severe vibration application,it needs to be glued and fixed.3.*An “-F”suffix designates horizontal package vs.standard vertical mounting.Output SpecificationsItem Operating Conditions Min.Typ.Max.Unit Output Voltage Accuracy10%-100%load--±5--% Line Regulation Rated load--±1.5--Load Regulation10%-100%load--±3--Ripple&Noise*20MHz bandwidth(peak-to-peak value),10%-100%load--80150mVTemperature Coefficient--±0.15--%/°C Stand-by Power Consumption230V AC--0.100.15W Short Circuit Protection Hiccup,continuous,self-recovery Over-current Protection≥110%Io,self-recovery Minimum Load10----% Note:1.*The“parallel cable”method is used for ripple and noise test,please refer to AC-DC Converter Application Notes for specific information;2.The product is able to work with0%-10%load and with stable output.General SpecificationsItem Operating Conditions Min.Typ.Max.UnitIsolation Input-output Electric Strength Test for1min.,leakage current<5mA3600----VAC5000----VDCOperating Temperature-40--+85℃Storage Temperature-40--+105Storage Humidity----95%RHSoldering Temperature Wave-soldering260±5℃;time:5-10s Manual-welding360±10℃;time:3-5sPower Derating +55℃to+85℃ 1.67----%/℃85V AC-100VAC 1.33----%/V AC 277V AC-305V AC0.72----Safety Standard LS05-13BxxR3seriesIEC/UL62368-1Safety Approval&BS EN/EN62368-1(Report);Design refer to IEC/EN60335-1,IEC/EN61558-1LS05-13BxxR3-F series BS EN/EN62368-1(Report)Safety Approval;Design refer to IEC/EN60335-1,IEC/EN61558-1Safety Class CLASS IIMTBF MIL-HDBK-217F@25℃>1,000,000h Mechanical SpecificationsDimension LS05-13BxxR326.40x14.73x11.00mm LS05-13BxxR3-F27.84x11.60x17.60mmWeight LS05-13BxxR3 5.2g(Typ.) LS05-13BxxR3-F 5.6g(Typ.)Cooling method Free air convection Electromagnetic Compatibility(EMC)Emissions CECISPR32/EN55032CLASS A(Application circuit1,4)CISPR32/EN55032CLASS B(Application circuit2,3) RECISPR32/EN55032CLASS A(Application circuit1,4)CISPR32/EN55032CLASS B(Application circuit2,3)Immunity ESD IEC/EN61000-4-2Contact±6KV perf.Criteria B RS IEC/EN61000-4-310V/m perf.Criteria AEFTIEC/EN61000-4-4±2KV(Application circuit1,2)perf.Criteria BIEC/EN61000-4-4±4KV(Application circuit3,4)perf.Criteria BSurge IEC/EN61000-4-5line to line ±1KV (Applicationcircuit 1,2)perf.Criteria B IEC/EN61000-4-5line to line ±2KV (Application circuit 3,4)perf.Criteria B CSIEC/EN61000-4-610Vr.m.sperf.Criteria A Voltage dip,shortinterruption and voltage variationIEC/EN61000-4-110%,70%perf.Criteria BProduct CharacteristicCurveNote:①With an AC input between 85-100VAC/277-305VAC and a DC input between 70-120VDC/390-430VDC,the output power must be derated as per temperature derating curves;②This product is suitable for applications using natural air cooling;for applications in closed environment please consult Mornsun FAE.Additional Circuits Design ReferenceLS series additional circuits design referenceLS05(-F)series additional components selection guide (No EMC devices)Part No.C1(required)C2(required)L1(required)C3(required)C4CY1(required)TVSLS05-13B03R3(-F)10uF/450V(-25℃to +85℃,85-305VAC input;-40℃to +85℃,165-305VAC input)22uF/450V(-40℃to +85℃,85-305VAC input)820uF/6.3V(solid-state capacitor)4.7uH/60m Ω/2.2A100uF/35V0.1uF/50V1.0nF/400V ACSMBJ7.0A LS05-13B05R3(-F)470uF/16V(solid-state capacitor)LS05-13B09R3(-F)270uF/16V(solid-state capacitor)47uF/35VSMBJ12A LS05-13B12R3(-F)SMBJ20A LS05-13B15R3(-F)220uF/35VLS05-13B24R3(-F)SMBJ30ANote:1.C1is used as filter capacitor with AC input (must be connected externally)and as EMC filter capacitor with DC input (must be connected),and it is recommended to use the capacitor with ripple current >200mA@100KHz .2.We recommend using an electrolytic capacitor with high frequency and low ESR (ESR of C3at low temperature of -40℃≤1.1Ω)rating for C3(refer tomanufacture’s datasheet),electrolytic capacitor can be used for C2when applied in normal and high temperature bined with C2,L1,they form a pi-type filter circuit.Choose a capacitor voltage rating with at least 20%margin,in other words not exceeding 80%.C4is a ceramic capacitor,used for filtering high frequency noise.3.A suppressor diode (TVS)is recommended to protect the application in case of converter failure and specification should be 1.2times of the output voltage.4.LDM (1.2mH,P/N:12050373;4.7mH,P/N:12050305),L1(4.7uH,P/N:12050181)Mornsun quotation is available.Environmental Application EMC SolutionLS series environmental application EMC solution selection tableRecommendedcircuitApplication environmental Typical industryInput voltagerangeEnvironment temperature Emissions Immunity 1Basic application None85-305V AC-40℃to +85℃Class A Level 32Indoor civil environment Smart home/Home appliances(2Y)-25℃to +55℃Class BLevel 3Indoor general environment Intelligent building/Intelligentagriculture 3Indoor industrial environment Manufacturing workshop -25℃to +55℃Class B Level 44Outdoor general environmentITS/Video monitoring/Charging point/Communication/Securityand protection-40℃to +85℃Class ALevel 4Immunity design circuits for referenceEmissions design circuits for referenceLevel 3Level 4Class AClass BElectromagnetic Compatibility Solution--Recommended Circuit1.Application circuit 1——Basic applicationrecommended circuit 1Application environmentalAmbient temperature rangeImmunity LevelEmissions ClassBasic application-40℃to +85℃Level 3Class AFUSE (required)1A/300V ,slow-blowR1(wire-wound resistor,required)12Ω/3WLDM4.7mH/Max:15Ω/Min:0.2ANote:R1is the input plug-in resistor,this resistor needs to be a wire-wound resistor (required),please do not select SMD resistor or carbon film resistor.2.Application circuit2——Indoor civil/Universal system recommended circuits for general environmentRecommended circuit2Application environmental Ambient temperature range Immunity Level Emissions Class Indoor civil/general-25℃to+55℃Level3Class BComponent Recommended valueR1(wire-wound resistor,required)12Ω/3WLDM 1.2mH/Max:4.0Ω/Min:0.2ACX0.1uF/310VACFUSE(required)1A/300V,slow-blow Note1:In the home appliance application environment,the two Y capacitors of the primary and secondary need to be externally connected (CY1/CY2,value at2.2nF/250VAC),which can meet the EN60335certification.Note2:According to the certification requirements,the X capacitor needs to be connected in parallel with the bleeder resistance,therecommended resistance value is less than3.8MΩ,and the actual need to be selected according to the certification standard.Note3:R1is the input plug-in resistor,this resistor needs to be a wire-wound resistor(required),please do not select SMD resistor or carbon film resistor. 3.Application circuit3——Universal system recommended circuits for indoor industrial environmentRecommended circuit3Application environmental Ambient temperature range Immunity Level Emissions ClassIndoor industrial-25℃to+55℃Level4Class BComponent Recommended valueMOV S14K350CX0.1uF/310V ACLDM 1.2mH/Max:4.0Ω/Min:0.2AR1(wire-wound resistor,required)12Ω/3WFUSE(required)2A/300V,slow-blow Note1:According to the certification requirements,the X capacitor needs to be connected in parallel with the bleeder resistance,the recommended resistance value is less than3.8MΩ,and the actual need to be selected according to the certification standard.Note2:R1is the input plug-in resistor,this resistor needs to be a wire-wound resistor(required),please do not select SMD resistor or carbon film resistor.4.Application circuit4——Universal system recommended circuits for outdoor generalenvironmentRecommended circuit4Application environmental Ambient temperature range Immunity Level Emissions ClassOutdoor general-40℃to+85℃Level4Class AenvironmentComponent Recommended valueMOV S14K350LDM 4.7mH/Max:15Ω/Min:0.2AR1(wire-wound resistor,required)12Ω/2WFUSE(required)2A/300V,slow-blow Note:R1is the input plug-in resistor,this resistor needs to be a wire-wound resistor(required),please do not select SMD resistor or carbon film resistor.5.For additional information please refer to LS-R3DIY AC-DC Converter Application Guide And Design Reference.LS05-13BxxR3Dimensions and Recommended LayoutLS05-13BxxR3series dimensionsLS05-13BxxR3series recommended padNote:There is a slot(non-metallic hole)between pin4/5,which the side pad were being cut off.For details,please refer to the recommended dimensions or pad.LS05-13BxxR3-F Dimensions and Recommended LayoutLS05-13BxxR3-F series dimensionsLS05-13BxxR3-F series recommended padNote:There is a slot(non-metallic hole)between pin4/5,which the side pad were being cut off.For details,please refer to the recommended dimensions or pad.Note:1.For additional information on Product Packaging please refer to .Packaging bag number:58220084(LS05-13BxxR3);58220093(LS05-13BxxR3-F);2.External electrolytic capacitors are required to modules,more details refer to typical applications;3.This part is open frame,at least6.4mm creepage distance between the primary and secondary external components of the module isneeded to meet the safety requirement,refer to the recommended welding hole design in the external dimension drawing;4.Unless otherwise specified,parameters in this datasheet were measured under the conditions of Ta=25℃,humidity<75%,nominal inputvoltage(115V and230V)and rated output load;5.All index testing methods in this datasheet are based on our company corporate standards;6.We can provide product customization service,please contact our technicians directly for specific information;7.Products are related to laws and regulations:see"Features"and"EMC";8.If product involves multi-brand materials and there are differences in color etc,please refer to the standards of each manufacturer;9.Our products shall be classified according to ISO14001and related environmental laws and regulations,and shall be handled byqualified units.Mornsun Guangzhou Science&Technology Co.,Ltd.Address:No.5,Kehui St.1,Kehui Development Center,Science Ave.,Guangzhou Science City,Huangpu District,Guangzhou,P.R.China Tel:86-20-38601850Fax:86-20-38601272E-mail:***************。

触控面板产品基本培训

触控面板产品基本培训
采用1个或多个精心设计的、被蚀刻的ITO层,这些ITO层通过蚀刻形 成多个水平和垂直电极
投射电容式根据不同工作原理又分: 自感应电容式(自电容) 互感应电容式(互电容)
电容TP产品基本结构(一)
1. GG结构:即为Cover Glass(盖片玻璃)+ Sensor Glass(感应玻璃) 构 成Touch Panel。
3. 电容式TP的发展历程
电容式触控技术于20多年前诞生,早期由美商3M(明尼苏达矿业制 造)公司独占整个电容式触控面板的国际市场。在几年前由于基本专利 到期,全球触控面板的生产业者纷纷加入开发电容式触控面板事业领域 中,期待有所发挥。
电阻式触摸屏原理
薄膜+玻璃(需要尖锐硬物点击) (1)前面板硬度稍弱,可以被硬物按下弯曲,后面板硬度很高,不会弯曲。 (2)前面板和后面板在平时没有挨住,在外力按下之下,前面板发生(局部)形变, 在这一点上前后面板会挨住
TP常用术语
基本类
CS: 表面应力 DOL:强化深度 CT:压缩应力、拉深应力 AG:抗炫 AR:抗反射 AF:抗指纹 AS:抗污
ITO:氧化铟锡 BM:黑色材料 Metal:金属(Mo-Al-Mo) SiO2:二氧化硅 IM:Nb2O5+SiO2
PR:光阻 POL:偏光片 CF:彩色滤光片 LCD/LCM:液晶显示器、模组 Barcode:条形码
电容:任何两个彼此绝缘又相距很近的导 体,组成一个电容器。
电场耦合
驱动电极TX
接受电极RX
无手指接触
驱动电极TX
接受电极RX
有手指接触
电容式TP分类
表面电容式
由一个普通的ITO层和一个金属边框,当一根手指触 摸屏幕时,从面板中放出电荷。感应在触摸屏的四角 完成,不需要复杂的ITO图案

FT5306

FT5306

FT5x06True Multi-TouchCapacitive TouchPanel ControllerINTRODUCTIONThe FT5x06 Series ICs are single-chip capacitive touch panel controller ICs with a built-in 8 bit Micro-controller unit (MCU).They adopt the mutual capacitance approach, which supports true multi-touch capability. In conjunction with a mutual capacitive touch panel, the FT5x06 have user-friendly input functions, which can be applied on many portable devices, such as cellular phones, MIDs, netbook and notebook personal computers.The FT5x06 series ICs include FT5206/FT5306/FT5406, the difference of their specifications will be listed individually in this datasheet.FEATURESz Mutual Capacitive Sensing Techniquesz True Multi-touch with up to 10 Points of Absolution X and Y Coordinates z Immune to RF Interferencesz Auto-calibration: Insensitive to Capacitance and Environ-mental Variations z Supports up to 28 Transmit Lines and 16 Receive Lines z Supports up to 8.9” Touch Screenz Full Programmable Scan Sequences with Individual Ad-justable Receive Lines and Transmit Lines to Support Various Applications z High Report Rate: More than 100Hzz Touch Resolution of 100 Dots per Inch (dpi) or above -- depending on the Panel Size z Optional Interfaces :I2C/SPI z 2.8V to 3.6V Operating Voltage z Supports 1.8V/AVDD IOVCCz Capable of Driving Single Channel (transmit/receive) Re-sistance: Up to15K Ω z Capable of Supporting Single Channel (transmit/receive) Capacitance: 60 pF z Optimal Sensing Mutual Capacitor: 1pF~4pF z 12-Bit ADC Accuracyz Built-in MCU with 28KB Program Memory, 6KB Data Memory and 256B Internal Data Space z 11 Internal Interrupt Sources and 2 External Interrupt Sources z 3 Operating Modes¾ Active ¾ Monitor ¾ Hibernatez Operating Temperature Range: -40°C to +85°CFT5x06 ArrayDATASHEETINTRODUCTION (I)FEATURES (I)1 OVERVIEW (1)1.1 T YPICAL A PPLICATIONS (1)2 FUNCTIONAL DESCRIPTION (1)2.1 A RCHITECTURAL O VERVIEW (1)2.2 MCU (2)2.3 O PERATION M ODES (2)2.4 H OST I NTERFACE (3)2.5 S ERIAL I NTERFACE (3)2.5.1 I2C (3)2.5.2 SPI (4)3 ELECTRICAL SPECIFICATIONS (8)3.1 A BSOLUTE M AXIMUM R ATINGS (8)3.2 DC C HARACTERISTICS (9)3.3 AC C HARACTERISTICS (9)3.4 I/O P ORTS C IRCUITS (10)3.5 POWER ON/R ESET/W AKE S EQUENCE (11)4 PIN CONFIGURATIONS (12)5 PACKAGE INFORMATION (15)5.1 P ACKAGE I NFORMATION OF QFN-5X5-40L P ACKAGE (15)5.2 P ACKAGE I NFORMATION OF QFN-6X6-48L P ACKAGE (16)5.3 P ACKAGE I NFORMATION OF QFN-8X8-68L P ACKAGE (17)5.4 O RDER I NFORMATION (18)1OVERVIEW1.1Typical ApplicationsFT5x06 accommodate a wide range of applications with a set of buttons up to a 2D touch sensing device, their typical applications are listed below.z Mobile phones, smart phonesz MIDsz Netbookz Navigation systems, GPSz Game consolesz Car applicationsz POS (Point of Sales) devicesz Portable MP3 and MP4 media playersz Digital camerasFT5x06 Series ICs support 2.8”~8.9” Touch Panel, users may find out their target IC from the specs. listed in the following table,Panel PackageModel NameTouch Panel SizeTX RX Type Pin SizeFT5206GE1 15 10 QFN5*5 40 0.75-P0.4 2.8"~3.8"FT5306DE4 20 12 QFN6*6 48 0.75-P0.4 4.3"~7"FT5406EE8 28 16 QFN8*8 68 0.75-P0.4 7"~8.9"2FUNCTIONAL DESCRIPTION2.1Architectural OverviewFigure2-1 shows the overall architecture for the FT5x06.Figure 2-1 FT5x06 System Architecture DiagramThe FT5x06 is comprised of five main functional parts listed below,z Touch Panel Interface CircuitsThe main function for the AFE and AFE controller is to interface with the touch panel. It scans the panel by sending AC signals to the panel and processes the received signals from the panel. So, it supports both Transmit (TX) and Receive (RX) functions. Key pa-rameters to configure this circuit can be sent via serial interfaces, which will be explained in detail in a later section.z8051-based MCUThis MCU is 8051 compatible with some enhancements. For instant, larger program and data memories are supported. In addition, a Multiplication-Division unit (MDU) is implemented to speed up the touch detection algorithms. Furthermore, a Flash ROM is implemented to store programs and some key parameters.Complex signal processing algorithms are implemented with firmware running on this MCU to process further the received signals in order to detect the touches reliably. Communication protocol software is also implemented on this MCU to exchange data and control information with the host processor.z External Interface¾I2C/SPI: an interface for data exchange with host¾INT: an interrupt signal to inform the host processor that touch data is ready for read¾WAKE: an interrupt signal for the host to change F5x06 from Hibernate to Active mode¾/RST: an external low signal reset the chip.z A watch dog timer is implemented to ensure the robustness of the chip.z A voltage regulator to generate 1.8V for digital circuits from the input VDD3 supply2.2MCUThis section describes some critical features and operations supported by the 8051 compatible MCU.Figure 2-2 shows the overall structure of the MCU block. In addition to the 8051 compatible MCU core, we have added the following circuits,z MDU: A 16x8 Multiplier and A 32/32 Dividerz Program Memory: 28KB Flashz Data Memory: 6KB SRAMz Real Time Clock (RTC): A 32KHz RC Oscillatorz Timer: A number of timers are available to generate different clocksz Master Clock: 24/ 48MHz from a 48MHz RC Oscillatorz Clock Manager: To control various clocks under different operation conditions of the systemFigure 2-2 MCU Block Diagram2.3Operation ModesFT5x06 operates in the following three modes:z Active ModeWhen in this mode, FT5x06 actively scans the panel. The default scan rate is 60 frames per second. The host processor can configure FT5x06 to speed up or to slow down.z Monitor ModeWhen in this mode, FT5x06 scans the panel at a reduced speed. The default scan rate is 25 frames per second and the host processor can increase or decrease this rate. When in this mode, most algorithms are stopped. A simpler algorithm is being executed to de-termine if there is a touch or not. When a touch is detected, FT5x06 shall enter the Active mode immediately to acquire the touch information quickly. During this mode, the serial port is closed and no data shall be transferred with the host processor. z Hibernate ModeIn this mode, the chip is set in a power down mode. It shall only respond to the “WAKE” or “RESET” signal from the host processor. The chip therefore consumes very little current, which help prolong the standby time for the portable devices.2.4 Host InterfaceFigure 2-3 shows the interface between a host processor and FT5x06. This interface consists of the following three sets of signals: z Serial Interfacez Interrupt from FT5x06 to the Host z Wake-up Signal from the Host to FT5x06Figure 2-3 Host Interface DiagramThe serial interfaces of FT5x06 is I2C or SPI. The details of this interface are described in detail in Section 2.5. The interrupt signal (/INT) is used for FT5x06 to inform the host that data are ready for the host to receive. The /WAKE signal is used for the host to wake up FT5x06 from the Hibernate mode. After exiting the Hibernate mode, FT5x06 shall enter the Active mode.2.5 Serial InterfaceFT5x06 supports the I2C or SPI interfaces, which can be used by a host processor or other devices.2.5.1 I2CThe I2C is always configured in the Slave mode. The data transfer format is shown in Figure 2-4.Figure 2-4 I2C Serial Data Transfer FormatFigure 2-5 I2C master write, slave readFigure 2-6 I2C master read, slave writeTable 2-1 lists the meanings of the mnemonics used in the above figures.Table 2-1 Mnemonics DescriptionMnemonicsDescriptionS I2C Start or I2C RestartA[6:0]Slave address A[6:4]: 3’b011A[3:0]: data bits are identical to those of I2CCON[7:4] register.W 1’b0: Write R 1’b1: Read A(N) ACK(NACK) PSTOP: the indication of the end of a packet (if this bit is missing, S will indicate the endof the current packet and the beginning of the next packet)I2C Interface Timing Characteristics is shown in Table 2-2.Table 2-2 I2C Timing CharacteristicsParameterUnit Min Max SCL frequencyKHz 0 400 Bus free time between a STOP and START condition us 4.7 \ Hold time (repeated) START condition us 4.0 \ Data setup timens 250 \ Setup time for a repeated START condition us 4.7 \ Setup Time for STOP conditionus4.0\2.5.2 SPISPI is a 4 wire serial interface. The following is a list of the 4 wires: z SCK: serial data clockz MOSI: data line from master to slave z MISO: data line from slave to master z SLVESEL: active low select signalSPI transfers data at 8bit packets. The phase relationship between the data and the clock can be defined by the two registers: phase and polck. Some data transfer examples can be found in Figure 2-7 to Figure 2-10.Figure 2-7 SPI Data Transfer Format (Phase=0, POLCK=0)Figure 2-8 SPI Data Transfer Format (PHASE=0, POLCK=1)bit7bit6bit5bit4bit3bit2bit1bit0MSBMISO/MOSISCKSLVSELPHASE=1 POLE=0Figure 2-9 SPI Data Transfer Format (Phase=1, POLCK=0)Figure 2-10 SPI Data Transfer Format (Phase=1, POLCK=1)SPI can be configured into either Master or Slave mode via the MAS bit of the SPI0CON register. When in the Master mode, the SPI needs to supply the data clock, whose frequency relationship with the Master clock can be set by CLKDVD bits of the SPI0CON register. When it is configured in the Slave mode, the clock, SCK, is supplied by the external Master. The maximum data clockfrequency must not be higher than8mclkF.SPI Interface Timing Characteristics is shown in the following Figure2-11,Figure2-12, Figure2-13, Figure2-14 and Table 2-3.MOSI SCK(POLCK=0)SLVSELMISO Tmckh TmcklTmsf cSCK(POLCK=1)PHASE=0Tmsr cTmoTmhTsdFigure 2-11 SPI master Timing PHASE =0MOSI SCK(POLCK=0)SLVSELMISO TmckhTmckl TmsfcSCK(POLCK=1)PHASE=1TmoTmhTmsr cFigure 2-12 SPI master Timing PHASE =1Figure 2-13 SPI slave Timing PHASE = 0MOSI SCK(POLCK=0)SLVSELMISOTsckhTsckl T sThToTsfcSCK(POLCK=1)PHASE=1Tsr cFigure 2-14 SPI slave Timing PHASE = 1Table 2-3 SPI Timing ParametersParameter Description MinMax UnitsMaster Mode timing (see figure 2-11,2-12)Tmckh sck high time 4×Tsysclk -- ns Tmckl sck low time4×Tsysclk-- ns Tmo sck shift edge to mosi data change 0 --nsTmh mosi data valid to sck shift edge 3×Tsysclk -- ns Tsd slvsel falling edge to mosi data valid 4×Tsysclk -- ns Tmsfcslvsel falling edge to first sck edge(Tmckh+Tmckl)/2--nsTmsrc last sck edge to slvsel rising edge (Tmckh+Tmckl)/2-- nsSlave mode timing(See figure 2-13,2-14)Tsckh sck high Time 4×Tsysclk -- ns Tsckl sck low Time 4×Tsysclk -- ns Tsd slvsel falling edge to Miso valid data time 0 4xTsysclk nsTs Mosi Data valid to sck sample edge 0 -- nsTh sck sample edge to Mosi data change 4×Tsysclk -- ns To sck shift edge to Miso data change 0 4xTsysclk nsTsfc slvsel falling edge to first sck edge 4×Tsysclk -- ns Tsrc last sck edge to slvsel rising edge 4×Tsysclk -- ns *Tsysclk is equal to one period of the device system clock3ELECTRICAL SPECIFICATIONS3.1Absolute Maximum RatingsTable 3-1 Absolute Maximum RatingsItem Symbol Unit Value Note Power Supply Voltage 1 VDDA - VSSA V -0.3 ~ +3.6 1, 2Power Supply Voltage 2 VDD3 – VSS V -0.3 ~ +3.6 1, 3I/O Power Supply Voltage Vt V -0.3 ~ IOVCC + 0.3 1,4Operating Temperature Topr ℃-40 ~ +85 1Storage Temperature Tstg ℃-55 ~ +125 1Notes1.If used beyond the absolute maximum ratings, FT5x06 may be permanently damaged. It is strongly recommended that the devicebe used within the electrical characteristics in normal operations. If exposed to the condition not within the electrical characteristics,it may affect the reliability of the device.2.Make sure VDDA(high)≥VSSA (low)3.Make sure VDD (high)≥VSS (low)4.IOVCC is set to VDD3 or VDDD by software configuration.3.2DC CharacteristicsTable 3-2 DC Characteristics (VDDA=VDD3=2.8~3.6V, Ta=-40~85℃)Item Symbol Unit Test Condition Min. Typ. Max. Note Input high-level voltage VIH V 0.7 x IOVCC -- IOVCCInput low -level voltage VIL V -0.3 -- 0.3 x IOVCCOutput high -level voltage VOH V IOH=-0.1mA 0.7 x IOVCC -- --Output low -level voltage VOL V IOH=0.1mA -- -- 0.3 x IOVCCI/O leakage current ILI μA Vin=0~VDDA -1 --1Current consumption (Normal operation mode)Iopr mAVDDA=VDD3 = 2.8VTa=25℃ MCLK=24MHz-- 6--Current consumption (Monitor mode)Imon mAVDDA=VDD3 = 2.8VTa=25℃ MCLK=24MHz-- 4--Current consumption (Sleep mode)Islp mAVDDA=VDD3 = 2.8VTa=25℃ MCLK=24MHz-- 0.03--Step-up output voltage VDD5 V VDDA=VDD3= 2.8V 5 5.255.6Power Supply voltage VDDAVDD3 V 2.7 2.8~3.63.73.3AC CharacteristicsTable 3-3 AC Characteristics of OscillatorsItem Symbol Unit Test Condition Min. Typ. Max. NoteOSC clock 1 fosc1 MHz VDD3 = 2.8VTa=25℃43 48 52OSC clock 2 fosc2 KHz VDD3 = 2.8VTa=25℃29 32 36Table 3-4 AC Characteristics of TX & RXItem Symbol Unit Test Condition Min Typ Max Note TX acceptable clock ftx KHz 100 150 270TX output rise time Ttxr nS -- 20 --TX output fall time Ttxf nS -- 20 --RX input voltage Trxi V 1.2 -- 1.63.4 I/OPortsCircuitsFigure 3-1 Digital Input & Output Port CircuitsFigure 3-2 Digital In/Out Port CircuitFigure 3-3 Reset Input Port Circuits Figure 3-4 Wake Input Port CircuitsFigure 3-5 INT output Port Circuits Figure 3-6 SCL/SDA Port Circuits3.5POWER ON/Reset/Wake SequenceThe GPIO such as Wake, INT and I2C should be pulled down to be low before powering on. The signal of waking up should be set to be high after powering on. INT signal will be sent to the host after initializing all parameters and then start to report points to the host.Powe rFigure 3-7 Power on timePow er I NT I 2C/SPIW akeup Figure 3-8 Power on SequenceReset time must be enough to guarantee reliable reset, The time of starting to report point after resetting approach to the time ofstarting to report point after powering on.Pow er I NT I 2C/SPIRESETFigure 3-8 Reset SequenceWake time must be enough to wake up the system, The time of starting to report point after waking approach to the time of starting to report point after powering onPow er I NT I 2C/SPIW ak eupFigure 3-8 Wake SequenceTable 3-5 Power on/Reset/Wake Sequence ParametersParameterDescriptionMin Max Units Tris Rise time from 0.1VDD to 0.9VDD-- 10 ms Tpon Time of starting to report point after powering on 300 -- ms Trsi Time of starting to report point after resetting 300 -- ms Trst Reset time5 -- ms Twai Time of starting to report point after waking 300 -- ms TwakWake up time5--ms4 PIN CONFIGURATIONSPin List of FT5x06Table 4-1 Pin Definition of FT5x06Pin No.NameFT5206GE1FT5306DE4FT5406EE8Type DescriptionVSSA 40 1 1 PWRAnalog groundNC 1 2 2 Not connected NC 48 3 Not connected TX28 4 O Transmit output pin TX27 5 O Transmit output pin TX26 6 O Transmit output pin TX25 7 O Transmit output pin TX24 8 O Transmit output pin TX23 9 O Transmit output pin TX22 10 O Transmit output pin TX21 11 O Transmit output pin TX20 3 12 O Transmit output pin TX19 4 13 O Transmit output pin TX18 5 14 O Transmit output pin TX17 6 15 O Transmit output pin TX16 7 16 O Transmit output pin TX15 2 8 17 O Transmit output pin TX143918OTransmit output pinTX13 4 10 19 O Transmit output pin TX12 5 11 20 O Transmit output pin TX11 6 12 21 O Transmit output pin TX10 7 13 22 O Transmit output pin TX9 8 14 23 O Transmit output pin TX8 9 15 24 O Transmit output pin TX7 10 16 25 O Transmit output pin TX6 11 17 26 O Transmit output pin TX5 12 18 27 O Transmit output pin TX4 13 19 28 O Transmit output pin TX3 14 20 29 O Transmit output pin TX2 15 21 30 O Transmit output pin TX1 16 22 31 O Transmit output pinVDD5 17 23 32PWR internal generated 5V power supply, A 1μF ceramic capacitor to ground is required.VDD3 18 24 33 PWR Analog power supplyVSS 19 25 34PWR AnaloggroundVDDD 20 26 35PWR Digital power supply (1.8V), generated internal. A 1μF ceramic capacitor to ground is required.TEST_EN 21 27 36 I Test mode enabled at high and float in normal mode GPIO0 37 I/O General Purpose Input/Output portGPIO1 38 I/O General Purpose Input/Output portGPIO2 39 I/O General Purpose Input/Output portGPIO3 40 I/O General Purpose Input/Output portSSEL/SCL 22 28 41 I/O SPI Slave mode, chip select, active low / I2C clock input SCK 23 29 42 I SPI Slave mode, clock inputMOSI/SDA 24 30 43 I/O SPI Slave mode, data input / I2C data input and output MISO 25 31 44 O SPI Slave mode, data output/RST 26 32 45 I External Reset, Low is activeWAKE 27 33 46 I External interrupt from the hostINT 28 34 47 O External interrupt to the hostNC 48 Notconnected NC 49 Notconnected NC 50 Notconnected NC 51 NotconnectedVDDA 30 35 52 PWR Analog power supplyRX1 29 36 53 I Receiver input pinsRX2 31 37 54 I Receiver input pinsRX3 32 38 55 I Receiver input pinsRX4 33 39 56 I Receiver input pinsRX5 34 40 57 I Receiver input pinsRX6 35 41 58 I Receiver input pinsRX7 36 42 59 I Receiver input pinsRX8 37 43 60 I Receiver input pinsRX9 38 44 61 I Receiver input pinsRX10 39 45 62 I Receiver input pinsRX11 46 63 I Receiver input pins RX12 47 64 I Receiver input pins RX13 65 I Receiver input pins RX14 66 I Receiver input pins RX15 67 I Receiver input pins RX1668IReceiver input pinsFT5206GE1 Package Diagram FT5306DE4 Package DiagramFT5406EE8 Package DiagramVSSA NC NC TX28TX27TX26TX25TX24345TX18TX15NCNC NCNCINT WAKESSEL/SCL45/RST MOSI/SDA 515049484746GPIO1VDDDT X 14T X 1T X 12T X 11T X 10T X 9T X 5T X 4T X 32425262728T X8TX7T X 6T X 2T X 1V D D 5V D D 3V S SV D D A R X 1R X 2X 3R X 4X 5X 9X 10X 1158R X 6X 7X 852535456R X 126465R X 13X 14R X 1567X 165PACKAGE INFORMATION5.1Package Information of QFN-5x5-40L PackageMillimeter ItemSymbolMin Typ MaxTotal Thickness A 0.7 0.75 0.8Stand OffA1 0 0.035 0.05 Mold Thickness A2 ----0.55 0.57L/F Thickness A3 0.203 REF Lead Width b 0.150.20 0.25 D 5 BSC Body Size E 5 BSC Lead Pitch e 0.4 BSC J 3.5 3.6 3.7 EP SizeK 3.5 3.6 3.7 Lead LengthL 0.350.4 0.45Package Edge Tolerance aaa 0.1 Mold Flatness bbb 0.1Co Planarity ccc 0.08 Lead Offset ddd 0.1 Exposed Pad Offseteee0.15.2Package Information of QFN-6x6-48L PackageMillimeterItem SymbolMin Typ Max Total Thickness A 0.70.75 0.8Stand Off A1 0 0.035 0.05Mold Thickness A2 ----0.55 0.57L/F Thickness A3 0.203 REFLead Width b 0.150.20 0.25BSCD 6Body SizeBSCE 6Lead Pitch e 0.4BSC4.3J 4.1 4.2EP Size4.3K 4.1 4.2Lead Length L 0.350.4 0.45Package Edge Tolerance aaa 0.1Mold Flatness bbb 0.1Co Planarity ccc 0.08Lead Offset ddd 0.1Exposed Pad Offset eee 0.15.3Package Information of QFN-8x8-68L PackageMillimeterItem Name SymbolMin Typ MaxTotal Thickness A 0.7 0.75 0.8Stand Off A1 0 0.035 0.05Mold Thickness A2 ---- 0.55 0.57L/F Thickness A3 0.203 REFLead Width b 0.15 0.20 0.25D 8BSCBody SizeBSCE 8Lead Pitch e 0.4 BSC6.36.2J 6.1EP Size6.36.2K 6.1Lead Length L 0.35 0.4 0.45Package Edge Tolerance aaa 0.1Mold Flatness bbb 0.1Coplanarity ccc0.08Lead Offset ddd 0.1Exposed Pad Offset eee 0.15.4Order InformationQFN40Pin(5 * 5 )/48Pin( 6 * 6 )/68Pin ( 8 * 8 )Package Type0.75 - P0.4Product Name FT5206GE1/ FT5306DE4/FT5406EE8Note:1). The last two letters in the product name indicate the package type and lead pitch and thickness. 2). The second last letter indicates the package type. D : QFN-6*6 , E : QFN-8*8, G : QFN-5*53). The last letter indicates the lead pitch and thickness. E : 0.75 - P0.4 Product Name Package Type # TX Pins# RX PinsFT5206GE1 FT5306DE4 FT5406EE8QFN-40L QFN-48L QFN-68L15 20 2810 12 16FT5x06 DATASHEETTHIS DOCUMENT CONTAINS INFORMATION PROPRIETARY TO FOCALTECH SYSTEMS CO.,LTD., AND MAY NOT BE REPRODUCED, DISCLOSED OR USED IN WHOLE OR PART WITHOUT THE EXPRESS WRITTEN PERMISSION OF FOCALTECH SYSTEMS CO.,LTD.Copyright © 2011, FocalTech Systems CO.,LtdAll rights reservedREVISION HISTORY DDCN#Version Revisions Date DC-10060040.1 First draft 2010-06-11DC-10060060.2 Change FT5206GE1 Package Diagram 2010-06-21DC-10120010.3 Modify block figure, timing and I/O figure 2010-12-20END OF DATASHEET。

2012敦泰新品推介-Sep2012-终端

2012敦泰新品推介-Sep2012-终端

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单层互容产品详述

FT5306i / FT5406i

针对单层互容优化的芯片
• RX数目>TX数目, 适合单层互容特有的大电阻 • 封装较小, 减小FPC面积

在FT5X06系列芯片技术的基础上加以改进,性 能稳定可靠
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单层互容屏体设计

基本原理

把所有”架桥”放在ITO区域之外
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单层互容屏体设计(续)

实际的电极单元设计

尽量扩大TX单元和RX单元的交叉面积
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真实两点(自容)方案优势

对客户的好处:

降低TP制造成本,比单层互容最少省20%成本
可使用300 欧方阻ITO Film ② 可以使用丝印制程 ③ FPC简单且压合良率高


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准确度 灵敏度 多点解析 报点率 中间+/-1mm,边缘+/-2mm; @7mm 支持6mm铜柱 ≥ 15mm ≥ 80Hz
传统互容
中间+/-1mm,边缘+/-2mm; @6mm 支持5mm铜柱 ≥ 12mm ≥ 80Hz

FocalTech FT5X46 Solution for Smart Phone-201407

FocalTech FT5X46 Solution for Smart Phone-201407

Lamp noise
Noise Immunity Charger testing Glove
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FT6436 FT6336 FT6236
• True 2 points ≤ 5.5” • 15 mm proximity sensor • Full ITO design
FT6446 FT6346 FT6246
• True 2 points ≤ 5.5” • Full lamination • Support P+F
FT5446DQS
16 x 28 GFF/OGS* ≤6.0’’/ 5mm 6*6*0.6 QFN56
FT5446WWa
20 x 28 GFF/OGS* ≤6.5’’ / 5mm 5*5*0.6 BGA62
2.7V~3.6V VDD,1.8V~3.3V IOVCC I2C 64KB
Finger points Linearity/Accuracy Power consumption
ApplicatБайду номын сангаасon: High Performance Smart Phone
Support Double-layers
Linearity: ±1mm Center& ±1.5mm Edge,Φ6mm&pitch=5. Sensitivity: Φ5mm Noise immunity: LCD noise, Charger noise, Lamp noise Gesture: -Double click -Draw line -Pre-defined Character (C,W,O,e, etc.) -User define gestures Glove(GFF): Normal material, up to 3mm thick Waterproof: Usable under 1cc

聚四氟乙烯材料力学性能参数表

聚四氟乙烯材料力学性能参数表

1.聚四氟乙烯聚四氟乙烯是用于密封的氟塑料之一。

聚四氟乙烯以碳原子为骨架,氟原子对称而均匀地分布在它的周围,构成严密的屏障,使它具有非常宝贵的综合物理机械性能(表14—9)。

聚四氟乙烯对强酸、强碱、强氧化剂有很高的抗蚀性,即使温度较高,也不会发生作用,其耐腐蚀性能甚至超过玻璃、陶瓷、不锈钢以至金、铂,所以,素有“塑料王”之称。

除某些芳烃化合物能使聚四氟乙烯有轻微的溶胀外,对酮类、醇类等有机溶剂均有耐蚀性。

只有熔融态的碱金属及元素氟等在高温下才能对它起作用。

聚四氟乙烯的介电性能优异,绝缘强度及抗电弧性能也很突出,介质损耗角正切值很低,但抗电晕性能不好。

聚四氟乙烯不吸水、不受氧气、紫外线作用、耐候性好,在户外暴露3年,抗拉强度几乎保持不变,仅伸长率有所下降。

聚四氟乙烯薄膜与涂层由于有细孔,故能透过水和气体。

表14-9聚四氟乙烯性能聚四氟乙烯在200℃以上,开始极微量的裂解,即使升温到结晶体熔点327℃,仍裂解很少,每小时失重为万分之二。

但加热至400℃以上热裂解速度逐渐加快,产生有毒气体,因此,聚四氟乙烯烧结温度一般控制在375~380℃。

聚四氟乙烯分子间的范德华引力小,容易产生键间滑动,故聚四氟乙烯具有很低的摩擦系数及不粘性,摩擦系数在已知固体材料中是最低的。

聚四氟乙烯的导热系数小,该性能对其成型工艺及应用影响较大。

其不但导热性差,且线膨胀系数较大,加入填充剂可适当降低线膨胀系数。

在负荷下会发生蠕变现象,亦称作“冷流”,加入填充剂可减轻蠕变程度。

聚四氟乙烯可以添加不同的填充剂,选择的填充剂应基本满足下述要求:能耐380℃高温即四氟制品的烧结温度;与接触的介质不发生反应;与四氟树脂有良好的混入性;能改善四氟制品的耐磨性、冷流性、导热性及线膨胀系数等。

常用的填充剂有无碱无蜡玻璃纤维、石墨、碳纤维、MoS2、A123、CaF2、焦炭粉及各种金属粉。

如填充玻璃纤维或石墨,可提高四氟制品的耐磨、耐冷流性,填充MoS2可提高其润滑性,填充青铜、钼、镍、铝、银、钨、铁等,可改善导热性,填充聚酰亚胺或聚苯酯,可提高耐磨性,填充聚苯硫醚后能提高抗蠕变能力,保证尺寸稳定等。

内核编译实验报告

内核编译实验报告

嵌入式系统实验报告(一)--linux内核配置和编译138352019陈霖坤一实验目的了解嵌入式系统的开发环境,内核的下载和启动过程;了解linux内核源代码的目录结构及各目录的相关内容;了解linux内核各配置选项内容和作业;掌握linux内核的编译过程。

二实验内容与要求配置一个完整的内核,尽可能理解配置选项在操作系统中的作用;将编译的内核文件复制到tftp服务器目录,在目标机中下载并运行。

三环境介绍1交叉编译器PC使用的CPU架构一般为X86架构,实验板采用的处理器是基于Cortex-A8的S5PV210,为ARM内核,所以在PC上能运行的程序在实验板上不能运行,需要用能适用于ARM核心的编译器进行编译,即交叉编译。

本实验所用交叉编译工具链为arm-2009q3,使用时需添加路径export PATH=$PATH:$(TOOLCHAINPATH)/bin/,PATH 为环境变量,在终端中输入命令时系统会根据PATH指定的路径查找,添加的目录下有arm-none-gnueabi-gcc,即我们需要用到的编译器。

2minicomminicom是linux系统中常用的串口调试工具,对应的,windows下有超级终端,或者串口调试助手一类的软件。

串口通信即利用异步串行接口(UART)进行通信,利用TXD和RXD可实现全双工通信。

PC常用的为9针接口,笔记本没有专门串口可利用USB转换,通信标准为RS232。

在终端输入minicom打开软件,Ctrl+A-O进入设置界面。

Serial Device选择通信端口,可以先查看系统中哪个设备是活动的再选择,如果连接线与端口选择不对应会出现无法通信的情况。

对笔记本使用USB转串口一般都以ttyS0挂载。

串口参数选择1152008N1,即波特率115200bps,八位数据位,无校验位,一位停止位。

硬件软件控制流都选择NO。

保存后给开发板上电可以看到从串口打印出的信息。

ic总汇(仅作参考)

ic总汇(仅作参考)

≤10.1“寸 I2C/SPI ≤12.1“寸 I2C/SPI ≤5.0“寸 ≤7.0“寸 ≤4.3“寸 ≤6“寸 ≤6.1“寸 I2C I2C I2C I2C I2C
单点+手势 28 真实两点 36 单层多点 (5点) 单层多点 (5点) 多点 多点 多点 多点 多点 11*16 12*24 13*24 36*48 40*58 44*66 48*72
使用喷水 器30cm喷 水两次可 使用喷水 器30cm喷 水两次可 使用喷水 器30cm喷 水两次可 使用喷水 器30cm喷 水两次可 使用喷水 器30cm喷 水两次可 使用喷水 器30cm喷 水两次可 使用喷水 器30cm喷 水两次可 使用喷水 器30cm喷 水两次可 使用喷水 器30cm喷 否 否 否 否 否 否 否 否 否 film/GLAS S/OGS film/GLAS S/OGS/on -cell film/GLAS S/OGS film/GLAS S/OGS/on -cell film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS 可以 可以 可以 不能 可以 可以 可以 可以 可以 可以 可以 不能 可以 可以 film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS film/GLAS S/OGS 可以 可以 可以 可以 ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz ≥60Hz 10mm 10mm 10mm 10mm 10mm 10mm 10mm 10mm 10mm 10mm 10mm 12mm 12mm 10mm

电容及静电

电容及静电

P183~P192
5-8 在電場中,某點受電荷 24 庫侖之作用力為 12 牛頓,問該點之電場強度值為多少? 公式:電場強度 E
F 12 0.5N/C Q 24
5-9 問在空氣中距離帶電量 4×10−9 庫侖,200cm 處的電場強度值為多少? 採用 SI 制,將距離 r = 200cm 轉換成 r = 200/100m = 2m(米 )。 Q 4 109 36 公式:電場強度 E K 2 9 109 9 (N/C,牛頓/庫侖 )。 4 r 22 5-10 如圖所示,二點電荷之電量分別為 Q1 = 2×10−10 庫侖、Q2 = 4×10−10 庫侖,二電荷相距 10 公分, 問在兩電荷間之 A 點的電場強度值為多少? 分別討論,單獨電荷對 A 點之電場強度,再合成 兩者之結果。
5
5-2 電容量
電容及靜電
立即練習解答
P173~P180
5-1 在 300μF 之電容器上,接上 25V 之電壓,問電容器上之電量為多少? 公式: Q CV 300 106 25 7500 106 7.5 103 7.5 mC 5-2 平行金屬板之電容器的面積為 0.5 平方公尺,兩極板間距離為 0.01 公尺,兩極板若以 空氣為介質,則電容量為多少? (1)介電常數 P PoPr ,介質若為空氣, Pr 1 。 PP A 0.5 (2)公式: C o r 8.85 1012 = 442.5× 10-12(F,法拉 ) 0.01 d 5-3 兩電容器之電容值為 C1 = 12μF 及 C2 = 6μF,串接在 24V 之電壓源,試求(1)總電量與 (2)各電容之電壓值為多少?
並聯電容值 = 7+5 = 12µF,再串聯之電容值 12μF//4μF
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[DOCUMENT CLASSIFICATION]
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TP 屏工厂量产及测试指导 V02
[Title]
Project name Document ref Version Release date Owner Classification Distribution List Approval [Project name] [Document ref] [Major revision number] .1 26 May 2012 Huangho [DOCUMENT CLASSIFICATION] [DISTRIBUTION LIST]
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[Project name]
[DOCUMENT CLASSIFICATION]
[Major revision number] .1
文档介绍 ......................................................................................................................................................................... 1 目标 ............................................................................................................................................................................ 1 适用人员 .................................................................................................................................................................... 1 适用芯片型号 ............................................................................................................................................................ 2 关于量产的几条基本原则性建议 ............................................................................................................................ 2 关于本文档的一些说明 ............................................................................................................................................ 2 量产主要流程和主要框架 ............................................................................................................................................. 3 量产测试结构 ............................................................................................................................................................ 3 TP 模组量产测试流程 ............................................................................................................................................... 3 屏厂 TP 模组项目量产测试开发 .............................................................................................................................. 4 各工站测试软件参数配置详细说明 ............................................................................................................................. 5 FPC 测试工站(FPC Test Station) .............................................................................................................................. 5 FPC 测试工站软件配置示例 .................................................................................................................................... 5 半成品测试工站(FOG Test Station) ......................................................................................................................... 7 半成品工站软件配置示例 ........................................................................................................................................ 7 成品测试工站(Final Test Station) ............................................................................................................................. 9 成品工站软件配置制作示例 .................................................................................................................................... 9 SIU 板及工厂测试软件相关说明 ................................................................................................................................ 11 SIU 板功能介绍 ....................................................................................................................................................... 11 工厂测试软件简介 .................................................................................................................................................. 11 工厂量产测试界面 ............................................................................................................................................. 11 生成测试配置文件 ............................................................................................................................................. 12 自动测试 ............................................................................................................................................................. 15 划点划线测试(Graph) ................................................................................................................................... 16
[Major revision number] .1
Approved by ZhangJK Duxx
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[Title]
Table of Contents
1 1.1 1.2 1.3 1.4 1.5 2 2.1 2.2 2.3 3 3.1 3.2 3.3 3.4 3.5 3.6 4 4.1 4.2 4.2.1 4.2.2 4.2.3 4.2.4