TPD6F003DQDR;TPD8F003DQDR;中文规格书,Datasheet资料

Contents目 录Appearance外观说明---------------------------------------------1Product Features产品特点---------------------------------------------1Installation Notes and Conditions of Usage安装注意事项及使用条件--------------------------------3Installation Steps安装步骤说明-----------------------------------------4Product Selection Table产品选型表-------------------------------------------5Control Mode and Application Load控制方式及适用负载------------------------------------7Wiring and Layout Considerations配线及布局注意事项------------------------------------7Terminal Wiring端子接线说明-----------------------------------------8Load and the Controller Wiring Diagram负载接线图和控制器接线图------------------------------9Product Parameters产品参数--------------------------------------------10Product Dimensions产品尺寸示意图--------------------------------------11Appendix :Electric Heating Wiring Diagram Examples附录：电加热接线实例图Product Pictures产品图片示例----------------------------------------12Thyristor power regulator is one kind of digital power controller,which is based on power semiconductor module (SCR ) and the digital processor core technology .It is also called Voltage Regulation for short .As a result of phase angle control and zero crossing control technology, the products has intelligence integration of voltage and power regulation significant features.可控硅电力调整器是一种以电力半导体模块（晶闸管）为基础，以数字处理器技术为核心的数字电力功率控制器。

DMG80480F070_01WTR产品概述：●基于T5L0芯片，运行DGUS II系统。

●7寸，800*480分辨率，262K色，TN屏，普通视角。

●液晶屏与触摸屏框贴工艺，产品厚度仅5.1mm。

●COF结构，将智能屏的整个核心电路固定于液晶模组FPC上，适合结构要求轻、薄，成本要求苛刻，生产简单的应用。

●排线共50个pin脚，引出用户CPU核的IO、UART、CAN、AD、PWM等接口，二次开发十分方便。

Features:●Based on T5L0,running DGUS II system.●7inch,800*480pixels resolution,262K colors,TN-TFT-LCD,normal viewing angel.●LCD and TP frame lamination process,only5.1mm thickness.●COF structure.The entire core circuit of the smart screen is fixed on the FPC of LCM,featured by lightand thin structure,low cost and easy production.●50pins,including IO,UART,CAN,AD and PWM from user CPU core for easy secondary development.1外部接口External InterfacePIN 序号Definition 定义I/O Functional Description 功能描述1+5V I 供电输入，DC3.6-5.5V 。

Power supply,DC3.6-5.5V.2+5V I 3GND GND GND4GND GND 5GND GND 6AD7I 5路ADC 输入，3.3V 电源做为参考，12bit 分辨率，输入电压范围0-3.3V 。

接线图Micro800™ 非隔离型单极模拟量输出功能性插件模块产品目录号2080-OF2/idc/groups/literature/documents/wd/208 0-wd004_-mu-p.pdfFR Cette publication est disponible en français sous forme électronique (fichier PDF).Pour la télécharger, rendez-vous sur la page Internet indiquée ci-dessus.IT Questa pubblicazione è disponibile in Italiano in formato PDF. Per scaricarla collegarsi al sito Web indicato sopra.DE Diese Publikation ist als PDF auf Deutsch verfügbar. Gehen Sie auf die oben genannte Web-Adresse, um nach der Publikation zu suchen und sie herunterzuladen.ES Esta publicación está disponible en español como PDF. Diríjase a la dirección web indicada arriba para buscar y descarga esta publicación.PT Esta publicação está disponível em portugués como PDF. Vá ao endereço web que aparece acima para encontrar e fazer download da publicação.ZHZC2 Micro800™ 非隔离型单极模拟量输出功能性插件模块出版物 2080-WD004A-ZH-P - 2010年9 月环境和机柜防止静电放电本设备适用于在污染等级 2 工业环境、过电压 II 类应用中使用 (如 IEC 60664-1 所定义)，在海拔高达 2000 米 (6562 英尺) 时不降额。

PI-8000伺服驅動器使用說明書版本：(适用软体以上)注意！警告!!注意这些贴在驱动器上或在这本使用说明书内的警告、注意符号。

它们提醒错误的操作可能对人体产生危险，或损坏驱动器。

在安装驱动器进入操作之前，请详读阅读以下的安全预防和警告事项。

安全预防和警告请确定在驱动器上的警告符号被保持在清晰的状态，亦请替换不清晰或被损坏的符号。

在开始之前，请熟读说明书使你自己熟悉驱动器的操作。

不要准许不合格的人员操作驱动器。

!警告这个驱动器将产生危险的电压并控制马达使机械零件旋转。

如果不适当操作可能对人体产生严重伤害或对驱动器造成损坏。

只有合格的人员才能操作这个驱动器。

这些人员必需熟悉所有的警告符号。

正确的安装、操作和维护，才能确保安全及维持设备的运转顺畅。

注意：驱动器是在高电压下工作的。

注意：切掉电源後驱动器内仍有高压的直流电。

因此关闭电源後五分钟才能打开驱动器的盖子。

注意：即使马达是停止的，下列的端子仍然可能带有危险的电压。

端子R、S、T、U、V、W、P、N、B、PR、BR注意：只有合格的人员才可以安装、配线及修理驱动器的故障。

注意：某些参数设定後，可能在电源输入之後立刻引起驱动器自动地开始运转。

定义合格的人员这本说明书内所指的合格人员，必须熟悉本驱动器的内部结构、安装程序、操作方法、维修步骤以及能够遵循安全措施以防危险意外的人员。

【危险】在这本说明书内和产品标签上，【危险】指示若不遵循适当的预防方法或步骤，可能对人的身体产生伤害。

【警告】在这本说明书内和产品标签上，【警告】指示若不遵循适当的预防方法或步骤，可能对人的身体产生伤害、或对机器产生损坏。

【注意】在这本说明书内和产品标签上，【注意】指示重要的消息或操作时的注意事项。

!危险和警告确保选择安装位置在安全的区域，防止高温、湿气和水滴的泼溅。

并防止小孩子们或一般无关的民众接近。

本驱动器只能用在被制造厂商所认可的场合。

未经认可的修正、修改可能引起着火、导电等伤害。

PDA 系列产品的设计、制造、检查、试验及特性都应遵照适合的最新版IEC 和中国GB 标准及国际单位SI 制。

GB/T13730《地区电网数据采集与监控系统通用技术条件》GB/50171-92《电气装置安装工作盘、柜及二次回路接线施工及验收规范》DL/T630《交流采样远动终端通用技术条件》DL/478-92《静态继电保护及安全自动装置通用技术条件》GB/50062-92《电力装置的继电保护和自动装置设计规范》GB/T50063-2008《电力装置的电测量仪表装置设计规范》DL/T587-1996《微机继电保护装置运行管理规程》GB/T13729-2002《远动终端通用技术条件》GB/14285-93《继电保护和安全自动装置技术规程》GB/T17626.12-1998《振荡波抗扰度试验》GB/T17626.11-2008《电压暂降、短时中断和电压变化抗扰度试验》GB/T17626.10-1998《阻尼振荡磁场抗扰度试验》GB/T17626.8-2006《工频磁场的抗扰度试验》GB/T17626.6-2008《射频场感应的传导骚扰抗扰度》GB/T17626.5-2008《浪涌（冲击）抗扰度试验》GB/T17626.4-2008《电快速瞬变脉冲群抗扰度试验》GB/T17626.2-2006《静电放电抗扰度试验》GB/T 14047-1993《量度继电器和保护装置》GB 3836.3-2000《爆炸性气体环境用电气设备 第 3 部 分：增安型"e"》JB/T 10613-2006《数字式电动机综合保护装置》GB/T13850-1998《交流电量转换为模拟量或数字信号的电测量变送器》JJG596-1999《电子式电能表检定规程》GB/T17215.321-2008《静止式有功电能表(1级和2级)》GB/T 22264-2008《安装式数字显示电测量仪表》产品标准Contents 目 录A -01综合电力监控仪PDA-120系列B -13 三相智能型电力仪表 PDA-103系列C -31单相智能型电力仪表 PDA-101系列D -51 智能型电动机保护控制器 PDA-110MRK F -66参考设计图附录产品业绩G -73GB/T17215.322-2008《》静止式有功电能表(0.2S 级和0.5S 级)E -58 低压电动机保护装置 ADVP-1451产品简介功能详表产品特点PDA -120系列综合电力监控仪是北京奥德威特电力科技股份有限公司按IEC 国际标准开发，与当今国际先进技术同步的网络化综合电力监控仪表。

9070T150D1Industrial Control TransformersProduct Description PRODUCT DESCRIPTIONControl power transformers from Schneider Electric set the industry standard for design innovation and performance. They are designed with low impedance windings for excellent voltage regulation, and can accomodate the high inrush current associated with contactors, starters, solenoids, and relays.A variety of designs are available to meet the diverse needs of panel builders and machinery OEMs. The versatility of our control transformer line offers unparalleled options for design engineers. We also have one of the most extensive offering of custom products with no minimum order requirements.We have a national network of distributors to ensure prompt delivery, including industry leading delivery on custom products. In most cases, we can design, manufacture, and ship a custom unit in two weeks or less.The Global Product Offering—Type TType T is our most popular and complete line of control transformers. It comes with unmatched design innovations for top performance and is manufactured using the most advanced insulating materials. The Type T control transformer is the best choice if size and cost are of concern.The Exceptional Regulation Offering —Type EOConstructed with traditional materials and manufacturing processes, Type EO transformers are UL and CSA Component Recognized. Units are designed for 55°C rise. All units are 60HZ rated, withde-rated VA levels for 50HZ.Transformers with Fuse Block Protection—Types TF and EOFWe offer both product lines with factory installed overcurrent protection fuse blocks.Type TF and EOF transformers consist of two primary fuse blocks and one secondary fuse block, a configuration that meets the majority of overcurrent needs by panel builders and machinery OEMs. Since the fuse blocks are pre-wired and mounted on top of the transformer, the Type TF and EOF transformers have the same footprint as the Type T and Type EO units, respectively. This design frees up space normally used for separate fuse blocksWe also have an extensive fuse block offering for custom applications. See the overcurrent section of this catalog for full details.Leaded Control Transformer LineSchneider Electric offers transformers with internally pre-wired 24-inch primary and secondary leads, instead of terminal boards, to make installation easier and faster for many applications. These are only available for single voltage primary and single voltage secondary applications.MultiTapSchneider Electric offers Type T and Type EO transformers in the MultiTap version. The MultiTap control transformer was designed to respond to the increased need for voltage and stock flexibility. It combines multiple primary voltages with one or more secondary voltages, all in a single transfomer. The most flexible MultiTap voltage is the Universal, available on the Type T product line only. It allows for standard primary voltages of 208 to 600V and 110, 115, or 120V secondary voltages.Industrial Control TransformersType T TransformersTYPE T TRANSFORMERSThe Type T units are designed for the global market and are the best choice when size and cost are of concern. This is our most popular and complete offering of industrial control transformers. The following features are included:•50/60 Hz rated•Customer installed accessories (Finger-Safe covers, fuse blocks, fuse clips)•Type T transformers are designed with various temperature classes:—25–150 VA with a 55° C temperature rise, 105° C insulation —200–350 VA with a 80° C temperature rise, 130° C insulation —500–5000 VA with a 115° C temperature rise, 180° C insulationSchneider Electric manufactures a wide variety of voltage combinations for control transformers. The voltage combinations are expressed as “Voltage Codes”, and are embedded within the catalog number of the transformer. Standard codes are listed. If the voltage combination you need is not listed, please call your Schneider Electric distributor for assistance.CE MarkingIndustrial control transformers (ICTs) entering the European Union (EU) after January 1, 1997 are required by EU standards to have CE marking or Declaration of Conformity to CE. EU documentation requires compliance with specification EN 61 558 of the Low Voltage Directive. Type T ICTs from Schneider Electric comply with this specification and are third party tested to T ÜV standards, which adhere to, and are accepted by, EU standards. A Declaration of Conformity for all Type T units is available upon request.Because of different overload criteria in the CE specification,Schneider Elecric dual rates these transformers for UL VA, cUL VA, CSA VA, NOM VA and CE VA ratings (see “Type T VA Ratings” table). Because they are widely used with control circuit panels, ICTs are also required to comply with EN 60 204 and EN 61 558 in these applications. The Type T transformer line complies with EN 60 204 when Fingersafe ® covers are installed.For more information regarding CE marking, please contact your local Schneider Electric field sales office.Type T VA RatingsUL, cUL, CSA and NOM VA RatingCEVA Rating252550507575100100150150200200250160300200350250500300750500100063015001000200015003000200050003000Type T ListingsListingFileVA RangeUL E61239, Guide XPTQ225–5000cUL E612391500–5000CSALR37055, Guide 184-N-9025–1000EN947923, EN 61 558/01.89 (TUV ref: 00941-RAG/sg E9371495E01)25–2009579078, EN 61 558/01.89 (TUV ref: 00941-RAG/sg E9471921E01)250–10009579078, EN 61 558/01.89 (TUV ref: 00941-RAG/sg E9471921.02E01)1500–3000Industrial Control TransformersType T Transformers120 Volt Control SecondaryVoltage and Connection OptionsVoltage CodeVoltagesConnectionsPrimary SecondaryPrimarySecondaryD1220 x 440230 x 460240 x 480110115120220/230/240 V:Connect to H1 and H4Jumper H1 with H3Jumper H2 with H4440/460/480 V:Connect to H1 and H4Jumper H2 with H3Connect to X1 and X2DimensionsVA CatalogNumberFigureAcc. KeyA BCEFSlotsULCEINmmINmmINmmINmmINmmINmm25259070T25D11I 3.0979 3.0076 2.5866 2.0051 2.50640.20 x 0.38 5 x 1050509070T50D11I 3.0979 3.0076 2.5866 2.0051 2.50640.20 x 0.38 5 x 1075759070T75D11I 3.3485 3.3886 2.8973 2.3861 2.81710.20 x 0.48 5 x 121001009070T100D11I 3.3485 3.3886 2.8973 2.3861 2.81710.20 x 0.48 5 x 121501509070T150D11I 3.5991 3.7595 3.2081 2.8873 3.13800.20 x 0.38 5 x 102002009070T200D11I 3.5991 3.7595 3.2081 2.8873 3.13800.20 x 0.38 5 x 102501609070T250D12I 5.30135 3.7595 3.2182 2.8873 3.13800.20 x 0.38 5 x 103002009070T300D12I 4.74120 4.50114 3.8498 2.5665 3.75950.20 x 0.38 5 x 103502509070T350D12I 5.11130 4.50114 3.8498 3.0076 3.75950.20 x 0.38 5 x 105003009070T500D12I 5.49139 4.50114 3.8498 3.5690 3.75950.20 x 0.38 5 x 107505009070T750D12I 5.61143 5.25133 4.51115 3.4387 4.381110.28 x 0.567 x 1410006309070T1000D12I 6.30160 5.25133 4.51115 4.31109 4.381110.28 x 0.567 x 14150010009070T1500D12I 5.921507.06179 6.17157 4.13105 5.811480.28 x 0.567 x 14200015009070T2000D12I 7.171827.06179 6.17157 4.56116 5.811480.28 x 0.567 x 14300020009070T3000D13I 7.241849.002298.75222 4.631187.631940.44 x 1.1311 x 29500030009070T5000D13I9.152329.002298.752226.561677.631940.44 x 1.1311 x 2914T R A N S F O R M E R SIndustrial ControlClass 9070 / Refer to Catalogs 9070CT9901, 7400CT9601Square D ® Type T and MultiTap™ TransformersType T transformers are designed with low impedance windings forexcellent voltage regulation and can accommodate the high inrush current associated with contactors, starters, solenoids, and relays. As the most popular and complete line of control transformers with unmatched design innovations for top performance, Type Ts are manufactured using the most advanced insulating materials and are the best choice if size and cost are of concern. It is available in the MultiTap version, designed to respond to the increased need for voltage and stock flexibility. It combines multiple primary voltages with one or more secondary voltages, all in a single transformer.VAVA Catalog No.$ PriceH W D W e i g h t (l b s )U L /C S A /N O MCEin (mm)in (mm)in (mm)Primary 240 x 480 Secondary 120; Primary 230 x 460 Secondary 115; or Primary 220 x 440Secondary 11025259070T25D174.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.550509070T50D177.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D192.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D1103.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D1110.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D1136.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D1159.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D1176.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D1187.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D1233.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D1322.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D1390.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D1558.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D1678.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D1941.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D11582.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 208 Secondary 12050509070T50D390.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D3108.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D3121.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D3153.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D3195.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D3242.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D3248.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D3288.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D3314.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D3443.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D3558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D3780.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D3905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D31276.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D32010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 600 Secondary 120; Primary 575 Secondary 115; or Primary 550 Secondary 11050509070T50D590.00 2.58 (65.5) 3 (76.2) 3.09 (78.5) 2.575759070T75D5108.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D5121.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D5153.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D5195.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D5242.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D5248.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D5288.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D5314.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D5443.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D5558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D5780.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D5905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D51276.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D52010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 120 Secondary 120; Primary 115 Secondary 115; or Primary 110 Secondary 11050509070T50D24312.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D24324.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D24326.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D24348.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D24475.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D24477.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D24481.00 3.8 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D24483.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D24498.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D24560.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D24594.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D24717.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D24929.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D241463.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D242010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 277 Secondary 120Primary 277 Secondary 120 (continued)2002009070T200D4195.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D4242.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D4248.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D4288.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D4314.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D4443.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D4558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D4780.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D4905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D41276.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D42010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0VA VA Catalog No.$ PriceHW D W e i g h t (l b s )U L /C S A /N O MCEin (mm)in (mmin (mm)Primary 240 x 480 Secondary 120/240; Primary 230 x 460 Secondary 115/230; orPrimary 220 x 440 Secondary 110/22050509070T50D31125.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D31131.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D31138.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D31182.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D31235.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D31248.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D31290.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D31303.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D31339.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D31473.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D31558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D31816.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D31905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D311486.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D312010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 120 x240 Secondary 120/240; Primary 115 x 230 Secondary 115/230; orPrimary 110 x 2200 Secondary 110/22050509070T50D55312.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D55324.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D55326.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D55348.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D55475.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D55477.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D55481.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D55483.00 3.80 (96.5) 4.50(114.3) 5.09 (129.3)10.55003009070T500D55498.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D55560.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D55594.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D55856.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D55929.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D551588.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D552010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 240 X 480 Secondary 24/120 (24 V limited to 20% Capacity)50509070T50D1590.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D15108.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D15138.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D15153.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D15195.00 3.2 0(81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D15248.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D15290.00 3.80 (96.5) 4.50 9114.3) 4.70 (119.4)8.53502509070T350D15303.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D15339.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D15473.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D15558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D15816.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D15905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D151486.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D152010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 480 Secondary 24050509070T50D1290.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D12324.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D12121.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D12153.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D12195.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.20) 5.52501609070T250D12242.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D12248.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D12288.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D12314.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D12443.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D12558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D12780.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D12905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0VA VA Catalog No.$ PriceH W DW e i g h t (l b s )U L /C S A /N O MCEin (mm)in (mm)in (mm)9070T150D1。

PYBJ15-Q24-S5-Mdate 06/24/2019page1 of 9SERIES: PYBJ15 │ DESCRIPTION: DC-DC CONVERTERFEATURES• up to 15 W isolated output• ultra wide 4:1 input voltage range • single regulated output• output short circuit, over current, over voltage protection • efficiency up to 89%• DIP and SMT mounting styles • available with or without case• 1500 Vdc isolationMODELinput voltageoutput voltageoutput currentoutput powerripple & noise 1efficiency 2typ (Vdc)range (Vdc)(Vdc)min (mA)max (mA)max (W)max (mVp-p)typ (%)PYBJ15-Q24-S3249~36 3.30450014.8510088PYBJ15-Q24-S5249~365030001510088PYBJ15-Q24-S12249~3612012501510089PYBJ15-Q24-S15249~3615010001510089PYBJ15-Q48-S34818~75 3.30450014.8510088PYBJ15-Q48-S54818~755030001510088PYBJ15-Q48-S124818~7512012501510089PYBJ15-Q48-S154818~751510001510089Notes: 1. From 5~100% load, nominal input, 20 MHz bandwidth oscilloscope, with 10 µF tantalum and 1 µF ceramic capacitors on the output. From 0~5% load, ripple and noise is <5% Vo.2. Measured at nominal input voltage, full load.3. All specifications are measured at T a=25°C, humidity < 75%, nominal input voltage, and rated output load unless otherwise specified.PART NUMBER KEYBase NumberPYBJ15 - Q XX - S XX - X XInput VoltageOutput VoltageCase:“blank” = with case O = no caseMounting Style:D = DIPM = SMTdate 06/24/2019 │page 2 of 9 CUI Inc │ SERIES: PYBJ15 │DESCRIPTION: DC-DC CONVERTERINPUTparameter conditions/description min typ max unitsoperating input voltage24 Vdc input models48 Vdc input models 91824483675VdcVdcstart-up voltage24 Vdc input models48 Vdc input models 918VdcVdcsurge voltage24 Vdc input models for 1 second max48 Vdc input models for 1 second max -0.7-0.750100VdcVdcunder voltage shutdown24 Vdc input models48 Vdc input models 5.5126.515.5VdcVdccurrent 24 Vdc input models3, 5 Vdc output models12, 15 Vdc output models727718mAmA48 Vdc input models 3.3 Vdc output models5 Vdc output models363360mAmAstart-up current24 Vdc input models48 Vdc input models 3,0001,500mAmAremote on/off (CTRL)4turn on (CTRL pin pulled low to GND (0~1.2 Vdc))turn off (CTRL pin open or pulled high (3.5~12 Vdc))input current when switched off615mAalarm indication (ALM)Valm (relative to GND), when under voltage protection isgoing to happen, and during the over voltage protectionworking status.0.2 1.2Vdc Valm (relative to GND), other working status 3.59Vdcfilter Pi filterno load power consumption0.36W Notes: 4. The voltage of the CTRL pin is referenced to input GND pin.OUTPUTparameter conditions/description min typ max unitsmaximum capacitive load53.3, 5 Vdc output models12 Vdc output models15 Vdc output models4,7001,000820μFμFμFvoltage accuracy from 0% to full load±1±2% line regulation from low line to high line, full load±0.2±0.5% load regulation6from 5% to full load±0.5±1% switching frequency7PWM mode300kHz transient recovery time25% load step change, nominal input voltage300500μstransient response deviation 25% load step change, nominal input voltage3.3, 5 Vdc output modelsall other output models±3±3±8±5%%temperature coefficient at full load±0.03%/°C Note: 5. Tested at input voltage range and full load.6. At 0~100% load, the max load regulation is ±3%.7. Value is based on full load. At loads <50%, the switching frequency decreases with decreasing load for efficiency improvement.date 06/24/2019 │ page 3 of 9CUI Inc │ SERIES: PYBJ15 │ DESCRIPTION: DC-DC CONVERTER PROTECTIONSparameterconditions/description min typmax units over voltage protection output shut down 110160%over current protection hiccup, auto recovery110180230%short circuit protectionhiccup, continuous, auto recoverySAFETY AND COMPLIANCEparameter conditions/descriptionmin typ max units isolation voltageinput to output for 1 minute at 1 mA input to case 8 for 1 minute at 1 mA output to case 8 for 1 minute at 1 mA 1,500500500Vdc Vdc Vdc isolation resistance input to output at 500 Vdc input to case 8 at 500 Vdc output to case 8 at 500 Vdc 100100100MΩMΩMΩisolation capacitance input to output, 100 kHz / 0.1 V 1,000pFsafety approvals IEC 62368-1, EN 62368-1conducted emissions CISPR32/EN55032, class B (external circuit required, see Figure 2-a) radiated emissions CISPR32/EN55032, class B (external circuit required, see Figure 2-a)ESDIEC/EN61000-4-2, contact ±6 kV , class B radiated immunity IEC/EN61000-4-3, 10 V/m, class AEFT/burst IEC/EN61000-4-4, ±2 kV , class B (external circuit required, see Figure 2-b)surgeIEC/EN61000-4-5, line-line ±2 kV , class B (external circuit required, see Figure Figure 2-b)conducted immunity IEC/EN61000-4-6, 3 Vr .m.s, class A MTBF as per MIL-HDBK-217F , 25°C 1,000,000hoursRoHSyesNote:8. Only applies to versions with case.ENVIRONMENTALparameterconditions/description min typmax units operating temperature see derating curves-4085°C storage temperature -55125°C storage humidity non-condensing595%vibration10~150 Hz, for 60 minutes on each axis 5GDERATING CURVESO u t p u t L o a d (%)60801004020120 0Temperature Derating Curve(Output Load vs. Ambient Tempearature3.3, 5 Vdc output models)O u t p u t L o a d (%)60801004020120 070Temperature Derating Curve(Output Load vs. Ambient Tempearature12, 15 Vdc output models)date 06/24/2019 │ page 4 of 9CUI Inc │ SERIES: PYBJ15 │ DESCRIPTION: DC-DC CONVERTER MECHANICALparameterconditions/descriptionmintypmaxunits dimensionsDIP without case:3.3, 5 Vdc output models: 38.70 x 27.20 x 6.20 [1.524 x 1.071 x 0.244 inch]12, 15 Vdc output models: 38.70 x 27.20 x 5.80 [1.524 x 1.071 x 0.228 inch]mm mm DIP with case:3.3, 5 Vdc output models: 39.10 x 29.50 x 6.80 [1.539 x 1.161 x 0.268 inch]12, 15 Vdc output models: 39.10 x 29.50 x 6.40 [1.539 x 1.161 x 0.252 inch]mm mm SMT without case:3.3, 5 Vdc output models: 38.70 x 27.20 x 6.20 [1.524 x 1.071 x 0.244 inch]12, 15 Vdc output models: 38.70 x 27.20 x 5.80 [1.524 x 1.071 x 0.228 inch]mm mm SMT with case:3.3, 5 Vdc output models: 39.10 x 29.50 x 6.80 [1.539 x 1.161 x 0.268 inch]12, 15 Vdc output models: 39.10 x 29.50 x 6.40 [1.539 x 1.161 x 0.252 inch]mm mm case material aluminum alloyweightwithout case 3.3, 5 Vdc output models without case 12, 15 Vdc output models with case 3.3, 5 Vdc output models with case 12, 15 Vdc output models11.08.813.811.5g g g g10 Sec. Max.Wave Soldering Time4 Sec. Max.Peak Temp. 260°C Max.Time (sec.)T e m p e r a t u r e (°C )25020015010050SOLDERABILITYparameter conditions/descriptionmin typ max units hand soldering 1.5 mm from case for 10 seconds 300°C wave soldering 9see wave soldering profile260°C reflow soldering 10see reflow soldering profileMaximum duration >217°C is 60 seconds.For actual application, refer to IPC/JEDEC J-STD-020D.1245°CNote: 9. For DIP models only. 10. For SMT models only.50100150200250245217T e m p e r a t u r e (°C )Time (sec.)60 sec max (>217°C)Peak Temp 245°CWave Soldering Proflile(DIP models)Reflow Soldering Profile(SMT models)date 06/24/2019 │ page 5 of 9CUI Inc │ SERIES: PYBJ15 │ DESCRIPTION:DC-DC CONVERTER units: mm [inch]tolerance: ±0.50[±0.020]pin section tolerance: ±0.10[±0.004]Recommended PCB LayoutTop Viewunits: mm [inch]tolerance: ±0.50[±0.020]pin section tolerance: ±0.10[±0.004]MECHANICAL DRAWING (DIP WITH CASE )Recommended PCB LayoutTop ViewMECHANICAL DRAWING (DIP WITHOUT CASE )PIN CONNECTIONS PIN Function 1+Vo 2+Vo 3+Vo 40V 50V 6NC 7ALM 8CTRL 9NC 10+Vin 11+Vin 12GND 13GND PIN CONNECTIONS PIN Function 1+Vo 2+Vo 3+Vo 40V 50V 6NC 7ALM 8CTRL 9NC 10+Vin 11+Vin 12GND 13GND 14NCNote: NC = no connectdate 06/24/2019 │ page 6 of 9CUI Inc │ SERIES: PYBJ15 │ DESCRIPTION: DC-DC CONVERTER units: mm [inch]tolerance: ±0.50[±0.020]pin section tolerance: ±0.10[±0.004]MECHANICAL DRAWING (SMT WITHOUT CASE )Recommended PCB LayoutTop Viewunits: mm [inch]tolerance: ±0.50[±0.020]pin section tolerance: ±0.10[±0.004]MECHANICAL DRAWING (SMT WITH CASE )PIN CONNECTIONS PIN Function 1+Vo 2+Vo 3+Vo 40V 50V 6NC 7NC 8ALM 9CTRL 10NC 11+Vin 12+Vin 13GND 14GND Recommended PCB LayoutTop ViewPIN CONNECTIONS PIN Function 1+Vo 2+Vo 3+Vo 40V 50V 6NC 7NC 8ALM 9CTRL 10NC 11+Vin 12+Vin 13GND 14GND 15NCNote: NC = no connectdate 06/24/2019 │page 7 of 9 CUI Inc │ SERIES: PYBJ15 │DESCRIPTION: DC-DC CONVERTERAPPLICATION CIRCUITFigure 1 Table 1Vin+Vo0V Vout(Vdc)Cin(μF)Cout(μF)3.3/5/12/1510010This series has been tested according to the following recommended circuit (Figure 1) before leaving the factory. If you want to further reduce the input and output ripple, you can increase the input and output capacitors or select capacitors of low equivalent impedance provided that the capacitance is less than the maximum capacitive load of the model.EMC RECOMMENDED CIRCUITTable 2Figure 2Recommended External Circuit ComponentsVin (Vdc)2448FUSE choose according to actual input currentC0470 µF / 50 V680 µF / 100 VC1, C2 4.7 µF / 50 V 4.7 µF / 100 VC3refer to the Cout in T able 1C4330 µF / 50 V330 µF / 100 VLCM1 4.7 µHCY1, CY22000 pF /2 kVdate 06/24/2019 │page 8 of 9 CUI Inc │ SERIES: PYBJ15 │DESCRIPTION: DC-DC CONVERTERPACKAGINGunits: mmInner Carton Size: 280 x 196 x 63 mmOuter Carton Size: 600 x 285 x 225 mmOuter Carton QTY: 288 pcsdate 06/24/2019 │ page 9 of 9CUI Inc │ SERIES: PYBJ15 │ DESCRIPTION: DC-DC CONVERTER CUI offers a two (2) year limited warranty. Complete warranty information is listed on our website.Headquarters20050 SW 112th Ave.Tualatin, OR 97062800.275.4899Fax 503.612.2383cui .com*******************rev.description date 1.0initial release06/24/2019The revision history provided is for informational purposes only and is believed to be accurate.REVISION HISTORYPYBJ15-Q24-S5-M。

SM800酶标仪说明书企业名称：上海永创医疗器械有限公司注册地址：上海市松江区车墩镇北松公路7459号7幢2层生产地址：上海市松江区车墩镇北松公路7459号7幢2层联系电话：86-21-6774257867741937传真：86-21-67741776网址：邮编：201611上海永创医疗器械有限公司发布目录目录 0质量保证 (3)重要说明 (4)1.简介 (6)1.1仪器结构 (6)1.2光路系统 (7)1.3规格和参数 (8)2.开箱与安装 (9)2.1开箱 (9)2.2安装 (9)2.3初次开机 (9)2.4术语介绍 (9)3.软件 (11)3.1初始化 (11)3.2登录 (11)3.3主窗体 (11)3.3.1工具栏 (12)3.3.2快捷键 (13)3.4系统菜单 (13)3.4.1用户管理 (13)3.4.2切换用户 (13)3.4.3系统选项 (14)3.4.4退出 (14)3.5项目菜单 (14)3.5.1测试项目设置 (15)3.5.2项目编组 (20)3.5.3标准品管理 (20)3.6质控菜单 (22)3.6.1质控管理 (22)3.6.2质控设置 (23)3.6.3质控数据 (24)3.6.4质控图谱 (25)3.7病人菜单 (25)3.7.1病人信息 (26)3.7.2用户字典 (27)3.7.3输入偏好 (27)3.7.4打印报告 (29)3.8布板 (30)3.9分析菜单 (31)3.9.1运行分析 (31)3.9.2停止 (36)3.9.3停止报警 (36)3.9.4简单测试 (36)3.9.5结果/布板 (37)3.10报告菜单 (37)3.10.1病人综合报告 (37)3.10.2整板测试报告 (38)3.10.3简单测试报告 (39)3.11工具菜单 (39)3.11.1通讯设置 (39)3.11.2复位 (40)3.11.3波长设置 (40)3.11.4仪器维护 (41)3.11.5导出分析结果 (41)3.12帮助菜单 (41)3.12.1技术支持 (42)3.12.2关于 (42)4.仪器维护 (43)4.1日常清洁和消毒 (43)4.2触摸屏日常维护 (43)4.3安装光源 (43)4.4更换保险丝 (44)5.故障排除 (45)6.装箱清单 (46)6.1附件 (46)6.2随机文件 (46)质量保证用途：本产品供临床检验和医学科研单位进行酶联免疫测定。

*RoHS Directive 2002/95/EC Jan 27 2003 including AnnexSpecifications are subject to change without notice.Customers should verify actual device performance in their specific applications.Electrical Characteristics 1Standard Resistance Range .............................................................................10 ohms to 1 megohm Total Resistance Tolerance...........................................................................................................±3 %Dielectric Withstanding Voltage (MIL-STD-202, Method 301)Sea Level..........................................................................................................1,000 VAC minimum Power Rating (Voltage Limited By Power Dissipation or 500 VAC, Whichever is Less)+25 °C ...................................................................................................................................2 watts +85 °C......................................................................................................................................0 watt Insulation Resistance (500 VDC)..................................................................1,000 megohms minimum Resolution3681..........................................................................................................................................10 %3682............................................................................................................................................1 %3683.........................................................................................................................................0.1 %3684.......................................................................................................................................0.01 %3685.....................................................................................................................................0.001 %Absolute Minimum Resistance...............................3 ohms or 0.2 % maximum (whichever is greater)Accuracy (Dial Reading to Output Ratio)....................................................................±1.0 % full scaleEnvironmental Characteristics1Operating Temperature Range ...................................................................................-25 °C to +85 °C Storage Temperature Range.......................................................................................-25 °C to +85 °C Temperature Coefficient Over Storage Temperature Range...........................±100 ppm/°C maximum Vibration.........................................................................................................................................10 G Wiper Bounce...........................................................................................0.1 millisecond maximum Total Resistance Shift..............................................................................................±1 % maximum Voltage Ratio Shift................................................................................................±0.2 % maximum Shock.............................................................................................................................................50 G Wiper Bounce...........................................................................................0.1 millisecond maximum Total Resistance Shift..............................................................................................±1 % maximum Voltage Ratio Shift................................................................................................±0.2 % maximum Load Life...............................................................................................................1,000 hours, 2 watts Total Resistance Shift..............................................................................................±2 % maximum Rotational Life.........................................................................75,000 button operations each decade Total Resistance Shift..............................................................................................±2 % maximum IP Rating........................................................................................................................................IP 40Mechanical Characteristics 1Weight....................................3681 (9 gm); 3682 (16 gm); 3683 (23 gm); 3684 (30 gm); 3685 (37 gm)T erminals.....2.79 mm (0.11 in.) wide x .41 mm (.016 in.) thick, tinned solder lugs for 3 #20 AWG wires Soldering ConditionManual Soldering..........................................................96.5Sn/3.0Ag/0.5Cu solid wire or no-cleanrosin cored wire; 370 °C (700 °F) max. for 3 secondsWave Soldering....................96.5Sn/3.0Ag/0.5Cu solder with no-clean flux; 260 °C (500 °F) max.for 5 secondsWash processes..................................................................................................Not recommended Marking...............................Manufacturer’s name and part number, resistance value and date code.Ganging (Multiple Section Potentiometers)...............................................Up to 5 decades maximum Readout Marking........................................................................................................10 positions, 0-9Actuating Force...................................................................................19 to 29 oz. on detent decades Actuating Force Variation..............................................................................................4 oz. maximum1At room ambient: +25 °C nominal and 50 % relative humidity nominal, except as noted.NOTE: Terminals 1 & 3 are reversed from illustration for models 3682 and 3684.3680INCR.Product DimensionsDimensionsWeight (Approx.)Model a b c d e –.381 (–.015)oz.gms.368116.51 (.650)14.99 (.590)—9.91 (.39) 4.19 (.165).3369.5368226.67 (1.05)25.15 (.99)10.67 (.42)11.94 (.47)8.38 (.330).57616.5368337.08 (1.46)35.31 (1.39)18.54 (.73)11.94 (.47) 4.19 (.165).82423.5368447.50 (1.87)45.47 (1.79)30.73 (1.21)11.94 (.47)8.38 (.330) 1.07230.5368557.66 (2.270)55.63 (2.190)39.12 (1.540)11.94 (.47)4.19 (.165)1.32037.5DimensionsModel f –.010 (–.254)g –.010 (–.254)368121.08 (.830)15.75 (.620)368221.08 (.830)25.91 (1.020)368321.08 (.830)36.07 (1.420)368421.08 (.830)46.23 (1.820)368521.08 (.830)56.39 (2.220)*Ro H S C O M P L I A N T V E R S I O N S A V A I L A B L ESpecifications are subject to change without notice.Customers should verify actual device performance in their specific applications.Recommended Part NumbersBOLDFACE LISTINGS ARE IN STOCK AND READILY AVAILABLE THROUGH DISTRIBUTION.FOR OTHER OPTIONS CONSULT FACTORY.RoHS IDENTIFIER:L =COMPLIANTBLANK =NON-COMPLIANTREV. 05/07。

目录应用范围 (2)功能和特点 (2)控制精度 (5)环境温度........................................................................................................................... 错误！未定义书签。

参数设定单元 (6)变流器的主回路构造及功能 (11)优化过程 (13)可编程报警 (13)端子功能的说明 (14)标准规格 (9)标准连接图 (16)尺寸和重量 (18)应用范围TPD32系列整流装置为三相交流电源直接供电的全数字控制装置，其用途为调节它励直流电动机的速度和转矩。

它的结构紧凑，功能强大，产品性能稳定，可以满足各种生产和工艺的调速要求。

设计电流范围为15至4800A ，并可通过并联可控硅单元进行扩展。

TPD32变流器有两种类型： ∙ TPD32…2B 二象限变流器 ∙ TPD32…4B 四象限变流器功能和特点功能说明TPD32系列直流传动装置的特色是功能强大，即为了满足各种应用的要求，可以灵活的设定和修改参数。

这种直流传动装置可以用不同方法控制： ∙ 端子板 ∙ 键盘∙ RS485串行接口 ∙ 总线连接（可选）所需设定值是通过更改CONFIGURATION menu(配置菜单)中的Main commands（主指令）和Control mode（控制方式）参数来实现。

该装置装有在MS-WINDOWS TM环境下使用的用户接口软件，以便通过RS485串行接口来控制传动装置。

装置出厂设定为用级联电流调节的方法进行调速的，并按“标准接线图”所示的接线图连接。

该器件初始试运行只需要将直流电动机的参数输入该软件START UP（起动）菜单中。

然后，可在所有参数通过键盘（START UP/Main Commands（起动/主指令））设定后通过端子板控制传动装置。

如果所需功能在标准配置中不存在，则可以通过相应的菜单选择这些功能并设定它们的参数。

DC/DC Conver ter Specifications (measured @ ta= 25°C, nominal input voltage, full load and after warm-up)E224736UL-60950-1 CertifiedEN-55022 Certified20 Watt 2:11.6“ x 1“Ribbed StyleSingle OutputSelection GuidePart Input Input Output Output Efficiency Max. CapacitiveNumber VoltageRange Current Voltage Current typ. Load[VDC] [mA] [VDC] [mA] [%] [µF]RPP20-2412S 18-36 940 12 1670 90 1000DescriptionThe RPP20 series 2:1 input range DC/DC converters are ideal for high end industrial applications and COTS Militaryapplications where a very wide operating temperature range of -45°C to +115°C is required. Although the case sizeis very compact, the converter contains a built-in EMC filter EN-55022 Class B without the need for any externalcomponents. The RPP20 is available in a ribbed case style for active cooling. They are UL-60950-1 certified.FeaturesICETechnology*• +115°C Maximum Case Temperature• -45°C Minimum Case Temperature• Built-in EMC Filter• Ribbed Case Style• 2250VDC Isolation• EN-55022 Class B RPP20-2412S* ICE TechnologyICE (Innovation in Converter Excellence)uses state-of-the-art techniques to minimiseinternal power dissipation and to increasethe internal temperature limits to extend theambient operating temperature range to themaximum.Notes:Note1: Typical values at nominal input voltage and full load.Only the single output converters have a trim function that allows users to adjust the output voltage from +10% to -10%, please refer to the trim table that follow for details. Adjustment to the output voltage can be used with a simple fixed resistor as shown in Figures 1 and 2. A single fixed resistor can increase or decrease the output voltage depending on its connection. Resistor should be located close to the converter. If the trim function is not used, leave the trim pin open.Trim adjustments higher than the specified range can have an adverse effect on the converter´s performance and are not recommended. E xcessive voltage differences between output voltage sense voltage, in conjunction with trim adjustment of the output voltage; can cause the OVP circuitry to activate. Thermal derating is based on maximum output current and voltage at the converter´s output pins. Use of the trim and sense function can cause output voltages to increase, thereby increasing output power beyond the converter´s specified rating. Therefore: (Vout at Pins) X (Iout) ≤ rated output power.PROTECTIONSParameterConditionValueOutput Power Protection (OPP)current limit 120% typ.Over Voltage Protection (OVP)10% load 120% typ.Over Temperature Protection (OTP)case temperature 120°C, auto-recovery Isolation Voltage I/P to O/P , at 70% RH I/P to Case, O/P to Case 2250VDC / 1 Minute 1500VDC / 1 MinuteIsolation Resistance I/P to O/P , at 70% RH100M W min.Isolation CapacitanceI/P to O/P1500pF typ.Specifications (measured @ ta= 25°C, nominal input voltage, full load and after warm-up)Notes:Note2:This Power Module is not internally fused. A input fuse must be always used. Recommended Fuse: T1.6AREGULATIONSParameterConditionValueOutput Voltage Accuracy 50% load ±1.5% max.Line Voltage Regulation low line to high line ±0.3% max.Load Voltage Regulation 10% to 100% load±0.5% max.Transient Response 25% load step change, ΔIo/Δt=2.5A/us 800µs typ.Transient Peak Deviation25% load step change, ΔIo/Δt=2.5A/us±2%Vout max.Trimming Output VoltageFigure 2. Trim connections to decrease output voltage using fixed resistorsFigure 1. Trim connections to increase output voltage using fixed resistors+V IN -V INCTRL +V OUT R TRIM UP-V OUTTRIMLOAD+V IN -V INCTRL +V OUT R TRIM DOWN-V OUTTRIMLOADTrim down resistor value (K W )Vout-1%-2%-3%-4%-5%-6%-7%-8%-9%-10%12VDC 322.2137.281.153.135.524.016.09.75.01.3Trim up resistor value (K W )Vout1%2%3%4%5%6%7%8%9%10%12VDC 238.7113.168.246.332.122.415.49.86.53.2ENVIRONMENTALParameterConditionValueRelative Humidity95%, non condensing Temperature Coefficient ±0.04% / °C max.Thermal Impedance natural convection, mounting at FR4(254x254mm) PCB vertical horizontal7.2°C/W 7.8°C/WOperating Temperature Range start up at -45°C-45°C to (see calculation)Maximum Case Temperature +115°CMTBFaccording to MIL-HDBK-217F (+50°C G.B.)according to BellCore-TR-332 (+50°C G.B.)768 x 103 hours 1572 x 103 hourscontinued on next pageDerating Graph(Ta= +25°C, natural convection, typ. Vin and vertical mounting)CalculationSpecifications (measured @ ta= 25°C, nominal input voltage, full load and after warm-up)302535404550102030405060708090100Load [%]C a s e T e m p e r a t u r e [°C ]105060708090100203040506070809010018Vin24Vin 36Vin Load [%]E f f i c i e n c y [%]R thcase-ambient = 7.2°C/W (vertical) T case = Case Temperature R thcase-ambient = 7.8°C/W (horizontal)T ambient= Environment TemperatureP dissipation = Internal lossesR thcase-ambient = T case - T ambientP IN = Input PowerP dissipationP OUT = Output Powerh = Efficiency under given Operating Conditions P dissipation = P IN - P OUT = P OUTapp- P OUTapp R thcase-ambient = Thermal ImpedancehPractical Example:Take the RPP20-2412S with 50% load. What is the maximum ambient operating temperature? Use converter vertical in application.Eff min = 89% @ V nom P OUT = 20WP OUTapp = 20 x 0.5 = 10W P dissipation = P OUTapp- P OUTapp R th = T casemax - T ambient --> 7.2°C/W = 115°C - T ambienthP dissipation1.24Wh = ~88% (from Eff vs Load Graph)T ambientmax = 106.1°CP dissipation = 10- 10 = 1.24W0.89Specifications (measured @ ta= 25°C, nominal input voltage, full load and after warm-up)DC/DC Conver terSpecifications (measured @ ta= 25°C, nominal input voltage, full load and after warm-up)RPP20-2412SSeriesPACKAGING INFORMATIONParameterTypeValuePackaging Dimension (LxWxH)Tube160.0 x 45.0 x 16.0mmPackaging Quantity 5pcsStorage Temperature Range-55°C to +125°CThe product information and specifications may be subject to changes even without prior written notice.The product has been designed for various applications; its suitability lies in the responsibility of each customer. The products are not authorized for use in safety-critical applications without RECOM’s explicit written consent. A safety-critical application is an application where a failure may reasonably be expected to endanger or cause loss of life, inflict bodily harm or damage property. The applicant shall indemnify and hold harmless RECOM, its affiliated companies and its representatives against any damage claims in connection with the unauthorizeduse of RECOM products in such safety-critical applications.。

文件名称DocumentName使用说明书User Manual文件编号Document No.NDT2920281产品型号及名称ProductModel andNameNDC3(N、GV)-40(11、11S)/50(11、11S)/65(11、11S)/80(11、11S)/95(11、11S)交流接触器NDC3(N、GV)-40(11、11S)/50(11、11S)/65(11、11S)/80(11、11S)/95(11、11S)AC Contactor版 次Version1实施日期Implementation Date20190628编制/日期Preparedby/date刘晓鹏/20190628Liu Xiaopeng/20190628审核/日期Reviewedby/date王兴逢/20190628Wang Xingfeng/20190628批准/日期Approvedby/date雒国瑞/20190628Luo Guorui/20190628修订记录Revision History版次修订内容修订日期修订人员0 新增2019/5/19 刘晓鹏11．修改吸合功耗2．修改外形尺寸3．删除浪涌抑制模块内容2019/6/28 刘晓鹏1．适用范围与用途1. Application Scope and PurposeNDC3(N、GV)-40(11、11S)/50(11、11S)/65(11、11S)/8011(11、11S)/95(11、11S)交流接触器主要用于交流50/60Hz，额定绝缘电压为1000V，在AC-3使用类别下额定电压为415V时额定工作电流为40~95A的交流电路中，用于频繁启动和控制交流电动机；可逆接触器可以控制电动机的正反转和反接制动；并可以加装适当的过载继电器组成电磁起动器、以保护可能发生的过负荷电路。

The NDC3(N、GV)-40(11、11S)/50(11、11S)/65(11、11S)/8011(11、11S)/95(11、11S)AC contactors have the AC 50/60Hz and the rated insulation voltage of 1000V, and are mainly used for the AC circuit with the rated voltage of 415A and the rated working current of 40~95A as well as the AC-3 utilization category for frequently starting & controlling AC motors. Reversible contactors can control the forward and reverse braking of the motors; can be installed with the appropriate overload relays to form the magnetic starters, to protect the circuit in which overload may occur.2．应用范围2. Scope of Application（1）、适用环境（1）、Applicable environment标准使用环境温度：-25℃～+60℃；Standard operating ambient temperature: -25℃~+60℃;极限使用环境温度：-40℃～+70℃；Ultimate operating ambient temperature: -40℃~+70℃;存储温度：-60℃～+80℃；Storage temperature: -60℃~+80℃;正常使用海拔高度：≤3000米；Normal operating altitude: ≤3,000m;极限使用海拔高度：≤5000米；Ultimate operating altitude: ≤5,000m;环境湿度要求：Environmental humidity requirements:最高温度为+40℃时，空气的相对湿度不超过50%，在较低的温度下可以允许有较高的相对温度，对由于温度变化偶尔产生的凝露应采取措施。

Data Sheet No. PD60338IRMCK311 Dual Channel Sensorless Motor Control IC forAppliancesFeaturesMCE TM (Motion Control Engine) - Hardware based computation engine for high efficiency sinusoidal sensorless control of permanent magnet AC motor Integrated Power Factor Correction controlSupports both interior and surface permanent magnet motorsBuilt-in hardware peripheral for single shunt current feedback reconstructionNo external current or voltage sensing operational amplifier requiredDual channel three/two-phase Space Vector PWM Three-channel analog output (PWM)Embedded 8-bit high speed microcontroller (8051) for flexible I/O and man-machine controlJTAG programming port for emulation/debugger Two serial communication interface (UART)I2C/SPI serial interfaceWatchdog timer with independent analog clockThree general purpose timers/countersTwo special timers: periodic timer, capture timer Internal ‘One-Time Programmable’ (OTP) memory and internal RAM for final production usagePin compatible with IRMCF311 RAM version1.8V/3.3V CMOS Product SummaryMaximum crystal frequency 60 MHz Maximum internal clock (SYSCLK) frequency 128 MHz Maximum 8051 clock frequency 33 MHz Sensorless control computation time 11 μsec typ MCE TM computation data range 16 bit signed 8051 OTP Program memory 56K bytes MCE program and Data RAM 8K bytes GateKill latency (digital filtered) 2 μsec PWM carrier frequency counter 16 bits/ SYSCLK A/D input channels 6 A/D converter resolution 12 bits A/D converter conversion speed 2 μsec 8051 instruction execution speed 2 SYSCLK Analog output (PWM) resolution 8 bits UART baud rate (typ) 57.6K bps Number of I/O (max) 14 Package (lead-free) QFP64 Operating temperature -40°C ~ 85°CDescriptionIRMCK311 is a high performance OTP based motion control IC designed primarily for appliance applications. IRMCK311 is designed to achieve low cost and high performance control solutions for advanced inverterized appliance motor control. IRMCK311 contains two computation engines. One is Motion Control Engine (MCE TM) for sensorless control of permanent magnet motors; the other is an 8-bit high-speed microcontroller (8051). Both computation engines are integrated into one monolithic chip. The MCE TM contains a collection of control elements such as Proportional plus Integral, Vector rotator, Angle estimator, Multiply/Divide, Low loss SVPWM, Single Shunt IFB. The user can program a motion control algorithm by connecting these control elements using a graphic compiler. Key components of the sensorless control algorithms, such as the Angle Estimator, are provided as complete pre-defined control blocks implemented in hardware. A unique analog/digital circuit and algorithm to fully support single shunt current reconstruction is also provided. The 8051 microcontroller performs 2-cycle instruction execution (16MIPS at 33MHz). The MCE and 8051 microcontroller are connected via dual port RAM to process signal monitoring and command input. An advanced graphic compiler for the MCE TM is seamlessly integrated into the MATLAB/Simulink environment, while third party JTAG based emulator tools are supported for 8051 developments. IRMCK311 comes with a small QFP64 pin lead-free package.TABLE OF CONTENTS1 Overview (5)2 IRMCK311 Block Diagram and Main Functions (6)3 Pinout (8)4 Input/Output of IRMCK311 (9)4.1 8051 Peripheral Interface Group (10)4.2 Motion Peripheral Interface Group (10)4.3 Analog Interface Group (11)4.4 Power Interface Group (11)4.5 Test Interface (12)5 Application Connections (13)6 DC Characteristics (14)6.1 Absolute Maximum Ratings (14)6.2 System Clock Frequency and Power Consumption (14)6.3 Digital I/O DC Characteristics (15)6.4 PLL and Oscillator DC Characteristics (15)6.5 Analog I/O DC Characteristics (16)6.6 Under Voltage Lockout DC Characteristics (17)6.7 AREF Characteristics (17)7 AC Characteristics (18)7.1 PLL AC Characteristics (18)7.2 Analog to Digital Converter AC Characteristics (19)7.3 Op Amp AC Characteristics (19)7.4 SYNC to SVPWM and A/D Conversion AC Timing (20)7.5 GATEKILL to SVPWM AC Timing (21)7.6 Interrupt AC Timing (21)7.7 I2C AC Timing (22)7.8 SPI AC Timing (23)7.8.1 SPI Write AC timing (23)7.8.2 SPI Read AC Timing (24)7.9 UART AC Timing (25)7.10 CAPTURE Input AC Timing (26)7.11 JTAG AC Timing (27)7.12 OTP Programming Timing (28)8 I/O Structure (29)9 Pin List (32)Dimensions (35)10 Package11 Part Marking Information (36)Information (36)12 OrderingTABLE OF FIGURESFigure 1. Typical Application Block Diagram Using IRMCK311 (5)Figure 2. IRMCK311 Internal Block Diagram (6)Figure 3. IRMCK311 Pin Configuration (8)Figure 4. Input/Output of IRMCK311 (9)Figure 5. Application Connection of IRMCK311 (13)Figure 6. Clock Frequency vs. Power Consumption (14)Figure 7 Crystal oscillator circuit (18)Figure 8 Voltage droop of sample and hold (19)Figure 9 SYNC to SVPWM and A/D conversion AC Timing (20)Figure 10 GATEKILL to SVPWM AC Timing (21)Figure 11 Interrupt AC Timing (21)Figure 12 I2C AC Timing (22)Figure 13 SPI AC Timing (23)Figure 14 SPI Read AC Timing (24)Figure 15 UART AC Timing (25)Figure 16 CAPTURE Input AC Timing (26)Figure 17 JTAG AC Timing (27)Figure 18 OTP Programming Timing (28)Figure 19 All digital I/O except motor PWM output (29)Figure 20 RESET, GATEKILL I/O (29)Figure 21 Analog input (30)Figure 22 Analog operational amplifier output and AREF I/O structure (30)Figure 23 VPP programming pin I/O structure (30)Figure 24 VSS and AVSS pin structure (31)Figure 25 VDD1 and VDDCAP pin structure (31)Figure 26 XTAL0/XTAL1 pins structure (31)TABLE OF TABLESTable 1. Absolute Maximum Ratings (14)Table 2. System Clock Frequency (14)Table 3. Digital I/O DC Characteristics (15)Table 4. PLL DC Characteristics (15)Table 5. Analog I/O DC Characteristics (16)Table 6. UVcc DC Characteristics (17)Table 7. AREF DC Characteristics (17)Table 8. PLL AC Characteristics (18)Table 9. A/D Converter AC Characteristics (19)Table 10. Current Sensing OP Amp AC Characteristics (19)Table 11. SYNC AC Characteristics (20)Table 12. GATEKILL to SVPWM AC Timing (21)Table 13. Interrupt AC Timing (21)Table 14. I2C AC Timing (22)Table 15. SPI Write AC Timing (23)Table 16. SPI Read AC Timing (24)Table 17. UART AC Timing (25)Table 18. CAPTURE AC Timing (26)Table 19. JTAG AC Timing (27)Table 20. OTP Programming Timing (28)Table 21. Pin List (32)1 OverviewIRMCK311 is a new International Rectifier integrated circuit device primarily designed as a one-chip solution for complete inverter controlled appliance dual motor control applications. Unlike a traditional microcontroller or DSP, the IRMCK311 provides a built-in closed loop sensorless control algorithm using the unique Motion Control Engine (MCE TM) for permanent magnet motors. The MCE TM consists of a collection of control elements, motion peripherals, a dedicated motion control sequencer and dual port RAM to map internal signal nodes. IRMCK311 also employs a unique single shunt current reconstruction circuit to eliminate additional analog/digital circuitry and enables a direct shunt resistor interface to the IC. The sensorless control is the same for both motors with a single shunt current sensing capability. Motion control programming is achieved using a dedicated graphical compiler integrated into the MATLAB/Simulink TM development environment. Sequencing, user interface, host communication, and upper layer control tasks can be implemented in the 8051 high-speed 8-bit microcontroller. The 8051 microcontroller is equipped with a JTAG port to facilitate emulation and debugging tools. Figure 1 shows a typical application schematic using IRMCK311.IRMCK311 is intended for volume production purpose and contains 64K bytes of OTP (One Time Programming) ROM, which can be programmed through a JTAG port. For a development purpose use, IRMCF311 contains a 48k byte of RAM in place of program OTP to facilitate an application development work. Both IRMCF311 and IRMCK311 come in the same 64-pin QFP package with identical pin configuration to facilitate PC board layout and transition to mass productionFigure 1. Typical Application Block Diagram Using IRMCK3112 IRMCK311 Block Diagram and Main FunctionsM o t i o n C o n t r o l B u sFigure 2. IRMCK311 Internal Block DiagramIRMCK311 contains the following functions for sensorless AC motor control applications:• Motion Control Engine (MCE TM )o Proportional plus Integral block o Low pass filtero Differentiator and lag (high pass filter) o Ramp o Limito Angle estimate (sensorless control) o Inverse Clark transformation o Vector rotator o Bit latch o Peak detect o Transitiono Multiply-divide (signed and unsigned)o Divide (signed and unsigned)o Addero Subtractoro Comparatoro Countero Accumulatoro Switcho Shifto ATAN (arc tangent)o Function block (any curve fitting, nonlinear function)o16-bit wide Logic operations (AND, OR, XOR, NOT, NEGATE)o MCE TM program and data memory (6K byte). Note 1o MCE TM control sequencer• 8051 microcontrollero Three 16-bit timer/counterso16-bit periodic timero16-bit analog watchdog timero16-bit capture timero Up to 36 discrete I/Oso Eleven-channel 12-bit A/DFive buffered channels (0 – 1.2V input)One unbuffered channel (0 – 1.2V input)o JTAG port (4 pins)o Up to three channels of analog output (8-bit PWM)o Two UARTo I2C/SPI porto 64K byte Note 1program One-Time Programmable memoryo2K byte data RAM. Note 2Note 1: Total size of OTP memory is 64K byte, however MCE program occupiesmaximum 8K byte which will be loaded into internal RAM at a powerup/bootprocess. Therefore only 56K byte OTP memory area is usable for 8051microcontroller.Note 2: Total size of RAM is 8K byte including MCE program, MCE data, and 8051data. Different sizes can be allocated depending on applications.3 PinoutXTAL0XTAL1P1.1/RXD P1.2/TXDVDD1VSS VDD2P1.3/SYNC/SCKP1.4/CAPP 3.6/R X D 1P 3.7/T X D 1FPWMVL FPWMUL V S SV D D 2A V D DA V S SA I N 0A R E FP 2.7/A O P W M 1P 2.6/A O P W M 0CPWMUH CPWMVH CPWMWH CPWMUL CPWMVL CPWMWL CGATEKILL VDD1VSS I F B C OI F B C +I F B C -P L L V S SP L L V D DR E S E TN CT C KP 5.3/T D IP 5.2/T D OP 5.1/T M SS D A /C S 0S C L /S O -S I /V P PP 5.0/P F C G K I L LP F C P W M V S SFGATEKILL FPWMWL VAC-VAC+VACO IPFCO IPFC+IPFC-I F B F OI F B F +I F B F -P3.0/INT2/CS1C M E X TFPWMVH FPWMUHFPWMWH A I N 1P 3.2/I N T 0Figure 3. IRMCK311 Pin Configuration4 Input/Output of IRMCK311All I/O signals of IRMCK311 are shown in Figure 4. All I/O pins are 3.3V logic interface except A/D interface pins.Figure 4. Input/Output of IRMCK3114.1 8051 Peripheral Interface GroupUART InterfaceP1.1/RXD Input, Receive data to IRMCK311, can be configured as P1.1P1.2/TXD Output, Transmit data from IRMCK311, can be configured as P1.22nd channel Receive data to IRMCK311, can be configured as P3.6 P3.6/RXD1 Input,P3.7/TXD1 Output,2nd channel Transmit data from IRMCK311, can be configured as P3.7Discrete I/O InterfaceP1.3/SYNC/SCK Input/output port 1.3, can be configured as SYNC output or SPI clock P1.4/CAP Input/output port 1.4, can be configured as Capture Timer inputP3.0/INT2/CS1 Input/output port 3.0, can be configured as external interrupt 2 or SPIchip select 1P3.2/INT0 Input/output port 3.2, can be configured as external interrupt 0Analog Output InterfaceP2.6/AOPWM0 Input/output, can be configured as 8-bit PWM output 0 withprogrammable carrier frequencyP2.7/AOPWM1 Input/output, can be configured as 8-bit PWM output 1 withprogrammable carrier frequencyCrystal InterfaceXTAL0 Input, connected to crystalXTAL1 Output, connected to crystalReset InterfaceRESET Inout, system reset, needs to be pulled up to VDD1 but doesn’t requireexternal RC time constantI2C/SPI InterfaceSCL/SO-SI/VPP Output, I2C clock output, SPI SO-SII2C Data line, Chip Select 0 of SPISDA/CS0 Input/output,P3.0/INT2/CS1 Input/output port 3.0, can be configured as external interrupt 2 or SPIchip select 1P1.3/SYNC/SCK Input/output port 1.3, can be configured as SYNC output or SPI clock 4.2 Motion Peripheral Interface GroupPWMCPWMUH Output, motor 1 PWM phase U high side gate signalCPWMUL Output, motor 1 PWM phase U low side gate signalCPWMVH Output, motor 1 PWM phase V high side gate signalCPWMVL Output, motor 1 PWM phase V low side gate signalCPWMWH Output, motor 1 PWM phase W high side gate signalCPWMWL Output, motor 1 PWM phase W low side gate signalFPWMUH Output, motor 2 PWM phase U high side gate signalFPWMUL Output, motor 2 PWM phase U low side gate signal分销商库存信息: IRIRMCK311TR。

ISD15D00ISD15D00Digital ChipCorder with Digital Audio Interface-1-Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D00TABLE OF CONTENTS1 2 3 4 GENERAL DESCRIPTION .......................................................................................................... 3 FEATURES................................................................................................................................. 3 BLOCK DIAGRAM ...................................................................................................................... 5 PINOUT CONFIGURATION ........................................................................................................ 6 4.1 5 6 QFN-32 .................................................................................................................................................... 6PIN DESCRIPTION..................................................................................................................... 7 ELECTRICAL CHARACTERISTICS ...........................................................................................10 6.1 OPERATING CONDITIONS ........................................................................................................................ 10 6.2 DC PARAMETERS ................................................................................................................................... 11 6.3 AC PARAMETERS ................................................................................................................................... 12 6.3.1 Inputs ............................................................................................................................................. 12 6.3.2 Outputs ........................................................................................................................................... 13 6.3.3 SPI Timing ..................................................................................................................................... 16 6.3.4 I2S Timing ...................................................................................................................................... 177 8APPLICATION DIAGRAM ..........................................................................................................19 PACKAGE SPECIFICATION ......................................................................................................21 8.1 QFN-32 (5X5 MM^2, THICKNESS 0.8MM ,PITCH 0.5 MM) .................................................................. 219 10ORDERING INFORMATION ......................................................................................................22 REVISION HISTORY..............................................................................................................23-2-Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D001GENERAL DESCRIPTION®The ISD15D00 is a digital ChipCorder featuring digital compression, comprehensive memory management, and integrated analog/digital audio signal paths. The ISD15D00 utilizes serial flash 2 memory to provide non-volatile audio playback for a two-chip solution. The ISD15D00 provides an I S digital audio interface, faster digital programming, higher sampling frequency, and a signal path with SNR 80dB. 2 2 The ISD15D00 can take digital audio data via I S or SPI interface. When I S input is selected, it will replace the analog audio inputs and will support sample rates of 32, 44.1 or 48 kHz depending upon clock configuration. When SPI interface is chosen, the sample rate of the audio data sent must be one of the ISD15D00 supported sample rates. The ISD15D00 has inbuilt analog audio inputs, analog audio line driver, and speaker driver output. The analog audio input, Aux-in, has a fixed gain configured by SPI command. Aux-in can directly feed-through to the analog outputs; it can also mix with the DAC output and then feed-through to the analog outputs. Analog outputs are available in two forms: (1) Aux-out is an analog single-ended voltage output; (2) Class-AB BTL (bridge-tied-load) is an analog differential voltage output. Class-AB BTL delivers 0.7watt output power at VCCSPK = 4.5V. Class-D PWM direct-drive is also available, which delivers 0.9-watt output power at VCCSPK = 4.5V.2 •FEATURESExternal Memory: o The ISD15D00 supports the following flash: Winbond 25X 25Q EF 30 1X EF 40 1X Numonyx 25PX 20 71 1X MXIC 25L / 25V C2 20 1XManufacturer Family JEDEC ID o25P 20 20 1X25PE 20 80 1X• •••The addressing ability of ISD15D00 is up to 128Mbit, which is 64-minute playback time based on 8kHz/4bit ADPCM. o Inbuilt 3V voltage regulator to provide power source to the external flash memory Fast Digital Programming o Programming rate can go up to 1Mbits/second mainly limited by the flash memory write rate. Memory Management o Store pre-recorded audio (Voice Prompts) using high quality digital compression o Use a simple index-based command for playback o Execute pre-programmed macro scripts (Voice Macros) designed to control the configuration of the device and play back Voice Prompts sequences. Sample Rate o Seven sampling frequencies are available for a given master sample rate. For example, the sampling frequencies of 4, 5.3, 6.4, 8, 12.8, 16 and 32kHz are available when the device is clocked at a 32kHz master sample rate. 2 o For I S operation, 32, 44.1 and 48kHz master sample rates are available with playback sampling frequencies scaling accordingly. Compression Algorithms o For Pre-Recorded Voice Prompts µ-Law: 6, 7 or 8 bits per sample Publication Release Date: June 16, 2011 Revision 0.64-3-芯天下--/ISD15D00Differential µ-Law: 6, 7 or 8 bits per sample PCM: 8, 10 or 12 bits per sample Enhanced ADPCM: 2, 3, 4 or 5 bits per sample Variable-bit-rate optimized compression. This allows best possible compression given a metric of SNR and background noise levels. Oscillator o Internal oscillator with internal reference: 2.048 MHz o Internal oscillator with external resistor: 2.048 MHz with Rosc = 80kohm 2 o I S bit clock input Inputs o Aux-in: Analog input with 2-bit gain control configured by SPI command Outputs o PWM: Class-D speaker driver to directly drive an 8 speaker or buzzer Deliver 0.9-watt output power at VCCSPK = 4.5V o Aux-out: an analog single-ended voltage output o Class-AB BTL: an analog differential voltage output Deliver 0.7-watt output power at VCCSPK = 4.5V Class-AB BTL can directly drive an 8 speaker or buzzer Class-AB BTL can drive an 8 speaker or buzzer via an external amplifier I/Os o SPI interface: MISO, MOSI, SCLK, SSB for commands and digital audio data 2 2 2 2 2 o I S interface: I S_CLK, I S_WS, I S_SDI, I S_SDO for digital audio data o 8 GPIO pins: 2 4 GPIO pins share with I S 4 GPIO pins share with SPI Interface GPIO pins can trigger Voice Macro for a pushbutton application 8-bit Volume Control set by SPI command for flexible mixing Operating Voltage: 2.7 ~ 5.5V Standby Current: 1uA typical Package: o Green QFN-32 Temperature Options: o Industrial: -40°C to 85°C•• ••• • • • •-4-Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D003BLOCK DIAGRAMAv = 0, 3, 6, 9dBAUXINAUXINSUM2GPIO7 / SDI GPIO6 / SCK GPIO5 / WS GPIO4 / SDO+AUX_MUXI2S InterfaceDigital Signal Path: Digital Filters Resampling Volume ControlDACAUXOUTAUXOUTPWM ControlSPK+_MUXSPK+De-CompressionSPK-_MUXSPK-SCLK SSB GPIO1 / MISO GPIO0 / MOSI GPIO3 / INTB GPIO2 / RDY/BSYBSPI InterfaceMemory Management and Command InterpreterFlash Memory ControllerFigure 3-1 ISD15D00 Block DiagramFCLK FCSB FDI FDO-5-Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D004 4.1PINOUT CONFIGURATIONQFN-32I2S_SCK / GPIO6 1 I2S_WS / GPIO5 2 I2S_SDO / GPIO4 3 VSSD 4 VCCD 5 VREG 6 MISO / GPIO1 7 SCLK 83231302928272625 24 VCCFS 23 VCCF 22 FCSBISD15D0021 FDI 20 FCLK 19 FDO 18 RESET 17 GPIO2 / RDY/BSYB 169101112131415Figure 4-1 ISD15D00 QFN-32 Pin Configuration.-6-Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D005PIN DESCRIPTIONPin Name I/O FunctionPin Number QFN-32 32GPIO7 / 2 I S_SDI GPIO6 / 2 I S_SCKI/OA GPIO pin. By default this pin is a pull-high input. 2 Can be configured as Serial Data Input of the I S interface. A GPIO pin. By default this pin is a pull-high input. Can be configured as Clock input in slave mode or clock output in master mode. This pin can be configured as an external clock buffer if I2S is not used. A GPIO pin. By default this pin is a pull-high input. Can be configured as Word Select (WS) input in slave mode or WS output in master mode. A GPIO pin. By default this pin is a pull-high input. 2 Can be configured as Serial Data Output of the I S Interface. Digital Ground. Digital power supply. A 1.8V regulator to supply the internal logic. A minimum 1uF capacitor with low ESR<0.5OHM should be connected to this pin for supply decoupling and stability. Master-In-Slave-Out. Serial output from the ISD15D00 to the host. This pin is in tri-state when SSB=1. Can be configured as GPIO1. Serial Clock input to the ISD15D00 from the host. Slave Select input to the ISD15D00 from the host. When SSB is low device is selected and responds to commands on the SPI interface. Master-Out-Slave-In. Serial input to the ISD15D00 from the host. Can be configured as GPIO0. In PWM mode: Digital Power for the PWM Driver. Deliver 0.9-watt output power at VCCSPK = 4.5V. Or, In Class-AB mode: Analog Power for the Class-AB output. Class-AB BTL delivers 0.7-watt output power at VCCSPK = 4.5V.1I/O2GPIO5 / 2 I S_WS GPIO4 / 2 I S_SDO VSSD VCCD VREGI/O3I/O4 5 6I I O7MISO / GPIO1 SCLK SSB MOSI / GPIO0 VCCSPKO8 9 10 11I I I I-7-Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D00Pin Number QFN-32 12 Pin Name I/O FunctionSPK+OPWM driver positive output. This SPK+ output, together with SPKpin, provide a differential output to drive 8 speaker or buzzer. During power down this pin is in tri-state. Or, can be configured as Class-AB BTL which, together with SPKpin, provides a differential voltage output. Or, can be configured as a Class-AB single-ended output. In PWM mode: Digital Ground for the PWM Driver. Or, In Class-AB mode: Analog Ground for the Class-AB output. PWM driver negative output. This SPK- output, together with SPK+ pin, provides a differential output to drive 8 speaker or buzzer. During power down this pin is tri-state. Or, can be configured as Class-AB BTL which, together with SPK+ pin, provides a differential voltage output. Or, can be configured as a Class-AB single-ended output. In PWM mode: Digital Power for the PWM Driver. Deliver 0.9-watt output power at VCCSPK = 4.5V. Or, In Class-AB mode: Analog Power for the Class-AB output. Class-AB BTL delivers 0.7-watt output power at VCCSPK = 4.5V. Active low interrupt request pin. This pin is an open-drain output. Can be configured as GPIO3. An output pin to report the status of data transfer on the SPI interface. “High” indicates that ISD15D00 is ready to accept new SPI commands or data. Can be configured as GPIO2. Applying power to this pin will reset the chip. (A high pulse of 50ms or more will reset the chip.) Serial data output of the external serial flash interface. Connects to data input (DI) of external serial flash. Serial data CLK of the external serial flash interface. Serial data input to external serial flash interface. Connects to data output (DO) of external flash memory. Chip Select Bar of the external serial flash interface. Digital power supply for the external flash memory. A minimum 1uF capacitor with low ESR<0.5OHM should be connected to this pin for supply decoupling and stability. Refer to the application diagram.13VSSSPKI14SPK-O15VCCSPKI16 17INTB / GPIO3 RDY/BSYB / GPIO2O O18 19 20 21 22 23RESET FDO FCLK FDI FCSB VCCFI O O I O O-8-Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D00Pin Number QFN-32 24 Pin Name I/O FunctionVCCFSIDigital power supply for the inbuilt voltage regulator for the external flash memory. A 0.1uF capacitor should be connected to this pin for supply decoupling and stability. Refer to the application diagram. The CLK_CFG register determines one of the following configuration: A resistor connected to GND as a reference current to the internal oscillator. Aux Out. This pin is an analog voltage output. If AUXOUT is not used, this pin should be left unconnected. Analog power supply pin. Analog ground pin. Middle voltage reference for the swing of analog/digital audio outputs. A 4.7uF capacitor should be connected to this pin for supply decoupling and stability. Auxiliary input with the gain set by SPI command If Aux-in is not used, this pin should be left unconnected. This pin should be left unconnected.25XTALINI26 27 28 29Aux-out VCCA VSSA VMIDO I I O30 31Aux-in NCI-9-Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D006 6.1ELECTRICAL CHARACTERISTICS OPERATING CONDITIONS OPERATING CONDITIONS (INDUSTRIAL PACKAGED PARTS)CONDITIONS Operating temperature range (Case temperature) Digital Supply voltage (VCCD) Digital Ground voltage (VSSD) Analog Supply voltage (VCCA) Analog Ground voltage (VSSA)[1] [2] [3] [2] [3] [2] [4] [4]VALUES -40°C to +85° C +2.7V to +5.5V 0V +2.7V to +5.5V 0V +2.7V to +5.5V 0V – to regulate VCCF – tied to VCCF +2.7V to +5.5V +2.25V to +3.6V +2.4V to +3.0V +2.25V to +3.6VSpeaker Supply voltage (VCCSPK) Speaker Ground voltage (VSSSPK)Flash Source Supply voltage (VCCFS) Flash Source Supply voltage (VCCFS) Flash Supply voltage - (VCCF) Flash Supply voltage - (VCCF)NOTES:[1][4] [4]– regulated from VCCFS – tied to VCCFSVCCD 2.7 ~ 5.5V; No restrictions with respect to VCCA and VCCSPK. VSSD = VSSA = VSSSPK [3] In Class-AB mode: VCCSPK must equal VCCA. Otherwise: VCCSPK ≥ VCCA. [4] If VCCFS is guaranteed to be below 3.6V (or upper flash supply limit), then VCCF should be tied to VCCFS.[2]Figure 6-1 VCCF vs. VCCFS – VCCF is regulated internally from VCCFS[4]- 10 -Publication Release Date: June 16, 2011 Revision 0.64芯天下--/ISD15D00Publication Release Date: June 16, 2011 - 11 - Revision 0.646.2DC P ARAMETERSPARAMETER SYMBOL MIN TYP [1] MAXUNIT S CONDITIONS Digital Supply Voltage V CCD 2.7 5.5 V Analog Supply Voltage V CCA 2.7 5.5 V Speaker Supply Voltage V CCSPK 2.7 5.5 VFlash Source Supply VoltageV CCFS2.7 5.5 Vto regulate V CCF 2.25 3.6 tied to V CCFFlash Supply Voltage (refer to Figure 6-1)V CCFV CCFS -0.3Vregulated from V CCFS V CCFS = 2.7 ~ 3.3V3.0 regulated from V CCFS V CCFS = 3.3 ~ 5.5V 2.253.6 tied to V CCFS Input Low Voltage V IL V SSD -0.3 0.3xV CCD V Input High Voltage V IH 0.7xV CCD V CCD VOutput Low Voltage V OL V SSD -0.3 0.3xV CCD V I OL = 1mA Output High Voltage V OH 0.7xV CCDV CCD V I OH = -1mA INTB Output Low Voltage V OH1 0.4 V Playback Current I DD_Playback30 mA Standby Current I SB 1 10 µAInput Leakage CurrentI IL±1µAForce V CCDNotes: Conditions V CCD =V CCA =V CCSPK =V CCFS =3V, T A =25°C unless otherwise statedISD15D00Publication Release Date: June 16, 2011 - 12 - Revision 0.646.3AC P ARAMETERS6.3.1 Inputs AUX-IN:Conditions: V CCD = 3.3V, V CCA = V CCSPK = 5V , MCLK = 16.384MHz, T A = +25°C, 1kHz signalParameter Symbol Comments/Conditions Min Typ MaxUnits Auxiliary Analog Inputs (AUXIN)Full scale input signal 1Gain = 0dB1.0 0 Vrms dBV AUX Programmable gain0 9 dB AUX programmable gain step sizeGuaranteed Monotonic3 dB Input resistanceAux direct-to-out path, onlyInput gain = +9.0dB Input gain = +6.0dB Input gain = +3.0dB Input gain = 0dB 21 27 33 40k Ω k Ω k Ω k Ω Aux-in Gain AccuracyA AUX(GA)-0.5dB+0.5dBdBConditions: V CCD = 3.3V, V CCA = V CCSPK = 3.3V , MCLK = 16.384MHz, T A = +25°C, 1kHz signalParameterSymbol Comments/Conditions Min Typ MaxUnits Auxiliary Analog Inputs (AUXIN)Full scale input signal 1Gain = 0dB1.0 0 Vrms dBV AUX Programmable gain0 9 dB AUX programmable gain step sizeGuaranteed Monotonic3 dB Input resistanceRaux_in Aux direct-to-out path, onlyInput gain = +9.0dB Input gain = +6.0dB Input gain = +3.0dB Input gain = 0dB 21 27 33 40k Ω k Ω k Ω k Ω Aux-in Gain Accuracy A AUX(GA)-0.5dB+0.5dBdBISD15D00Publication Release Date: June 16, 2011 - 13 - Revision 0.646.3.2 Outputs Aux-outConditions: V CCD = 3.3V, V CCA = V CCSPK = 5V , MCLK = 16.384MHz, T A = +25°C, 1kHz signalParameter SymbolComments/Conditions Min Typ Max Units Digital to Analog Converter (DAC) driving AUXOUT with 5k Ω / 100pF loadFull-scale output Gain paths all at 0dB gainV CCA / 3.3 V rms Signal-to-noise ratioSNR A-weighted85 dB Total harmonic distortion 2THD+NR L = 5k Ω; full-scale signal A-weighted-80dBConditions: V CCD = 3.3V, V CCA = V CCSPK = 3.3V , MCLK = 16.384MHz, T A = +25°C, 1kHz signalParameter SymbolComments/Conditions Min Typ Max Units Digital to Analog Converter (DAC) driving AUXOUT with 5k Ω / 100pF loadFull-scale output Gain paths all at 0dB gain V CCA / 3.3V rms Signal-to-noise ratio SNR A-weighted80 dB Total harmonic distortion 2THD+NR L = 5k Ω; full-scale signal A-weighted-77dBISD15D00Publication Release Date: June 16, 2011 - 14 - Revision 0.64PWM OUTPUTConditions: V CCD = 3.3V, V CCA = V CCSPK = 5V , MCLK = 16.384MHz, T A = +25°C, 1kHz signalParameter Symbol Comments/Conditions Min Typ MaxUnits Speaker PWM Output (SPK_PLUS / SPK_MINUS with 8Ω bridge-tied-load) Signal-to-noise ratio 3 SNR A-weighted + Class D Filter65 dB Total harmonic distortion 2THD A-weighted + Class D Filter-40 dB Efficiency E PWM 8Ω bridge-tied-load Pout > 0.2W85%Conditions: V CCD = 3.3V, V CCA = V CCSPK = 3.3V , MCLK = 16.384MHz, T A = +25°C, 1kHz signalParameterSymbolComments/Conditions MinTyp MaxUnits Speaker PWM Output (SPK_PLUS / SPK_MINUS with 8Ω bridge-tied-load)Signal-to-noise ratio 3SNR A-weighted + Class D Filter65 dB Total harmonic distortion 2THD A-weighted + Class D Filter-40 dB Efficiency E PWM 8Ω bridge-tied-load Pout > 0.2W80%ISD15D00Publication Release Date: June 16, 2011 - 15 - Revision 0.64CLASS-AB BTL OUTPUTConditions: V CCD = 3.3V, V CCA = V CCSPK = 5V , MCLK = 16.384MHz, T A = +25°C, 1kHz signalParameter Symbol Comments/Conditions Min Typ MaxUnits Speaker CLASS-AB BTL Output (SPK_PLUS / SPK_MINUS with 8Ω bridge-tied-load)Full scale output Gain paths all at 0dB gain V CCA / 3.3V rmsSignal-to-noise ratioSNR A-weighted 90 dB Total harmonic distortion 2THD A-weighted-60 dB EfficiencyE AB8Ω bridge-tied-load Pout > 0.7W50%Conditions: V CCD = 3.3V, V CCA = V CCSPK = 3.3V , MCLK = 16.384MHz, T A = +25°C, 1kHz signalParameter Symbol Comments/Conditions Min Typ Max Units Speaker CLASS-AB BTL Output (SPK_PLUS / SPK_MINUS with 8Ω bridge-tied-load) Full scale output Gain paths all at 0dB gain V CCA / 3.3V rmsSignal-to-noise ratioSNR A-weighted 84 dB Total harmonic distortion 2THD A-weighted-60 dB EfficiencyE AB8Ω bridge-tied-load Pout > 0.4W50%Notes1. Full Scale is relative to the magnitude of VCCA and can be calculated as FS = VCCA/3.3.2. Distortion is measured in the standard way as the combined quantity of distortion products plus noise. The signal level for distortion measurements is at 3dB below full scale, unless otherwise noted.3.SNR measured with a -100dbFS signal at input.ISD15D00Publication Release Date: June 16, 2011 - 16 - Revision 0.646.3.3SPI TimingSYMBOL DESCRIPTION MIN TYP MAX UNIT T SCK SCLK Cycle Time 60 --- --- ns T SCKH SCLK High Pulse Width 25 --- --- ns T SCKL SCLK Low Pulse Width 25 --- --- ns T RISE Rise Time --- --- 10 ns T FALL Fall Time--- --- 10 ns T SSBS SSB Falling Edge to 1stSCLK Falling Edge Setup Time30--- --- ns T SSBH Last SCLK Rising Edge to SSB Rising Edge Hold Time30ns --- 50us --- T SSBHI SSB High Time between SSB Lows 20 --- --- ns T MOS MOSI to SCLK Rising Edge Setup Time 15 --- --- ns T MOH SCLK Rising Edge to MOSI Hold Time15 --- --- ns T ZMID Delay Time from SSB Falling Edge to MISO Active -- -- 12 ns T MIZDDelay Time from SSB Rising Edge to MISO Tri-state----12nsISD15D00Publication Release Date: June 16, 2011 - 17 - Revision 0.64SYMBOL DESCRIPTIONMIN TYP MAX UNIT T MID Delay Time from SCLK Falling Edge to MISO --- --- 12 ns T CRBD Delay Time from SCLK Rising Edge to RDY/BSYB Falling Edge-- -- 12 ns T RBCD Delay Time from RDY/BSYB Rising Edge to SCLK Falling Edge----ns6.3.4I 2S TimingFigure 6-3 I 2S TimingSYMBOL DESCRIPTION MIN TYP MAX UNIT T SCK IS_SCK Cycle Time 60 --- --- ns T SCKH IS_SCK High Pulse Width 25 --- --- ns T SCKL IS_SCK Low Pulse Width 25 --- --- ns T RISE Rise Time --- --- 10 ns T FALLFall Time------10nsISD15D00SYMBOL DESCRIPTION MIN TYP MAX UNIT T WSS WS to IS_SCK Rising Edge Setup Time 20 --- --- ns T WSH IS_SCK Rising Edge to IS_WS Hold Time 20 --- --- ns T SDIS IS_SDI to IS_SCK Rising Edge Setup Time 15 --- --- ns T SDIH IS_SCK Rising Edge to IS_SDI Hold Time 15 --- --- ns T SDOD Delay Time from IS_SCLK Falling Edge to IS_SDO --- --- 12 nsPublication Release Date: June 16, 2011 - 18 - Revision 0.64Publication Release Date: June 16, 2011 - 19 - Revision 0.647APPLICATION DIAGRAM芯天下--/Publication Release Date: June 16, 2011 - 20 - Revision 0.64 芯天下--/ISD15D008 PACKAGE SPECIFICATION8.1 QFN-32(5X5MM^2,T HICKNESS 0.8MM,P ITCH 0.5MM)Publication Release Date: June 16, 2011 - 21 - Revision 0.64ISD15D00Publication Release Date: June 16, 2011 - 22 - Revision 0.649 ORDERING INFORMATIONI15D00 YYIISD15D0010 REVISION HISTORYVersion Date Description0.23 Aug 3, 2009 Initially released as the Preliminary Datasheet.0.26 Aug 17, 2009 Update application diagram.0.27 Sep 28, 2009 Update the list of supported Flash Memory.0.29 Nov 18, 2009 Update:•Block Diagram.•Electrical Characteristics.0.34 Dec 7, 2009 Add QFN-32 Package.0.35 Feb 8, 2010 Update block diagram.0.40 July 1, 2010 Update crystal configuration.0.50 Aug 12, 2010 Update PWM spec.0.60 Mar 31, 2011 Class-AB output delivers 0.7-watt at 4.5V.0.63 Apr 13, 2011 Update package information.0.64 June 16, 2011 Update description of Rise and Fall time.Publication Release Date: June 16, 2011 - 23 - Revision 0.64ISD15D00 Nuvoton products are not designed, intended, authorized or warranted for use as components in systems or equipment intended for surgical implantation, atomic energy control instruments, airplane or spaceship instruments, transportationinstruments, traffic signal instruments, combustion control instruments, or for other applications intended to support or sustain life. Furthermore, Nuvoton products are not intended for applications wherein failure of Nuvoton products couldresult or lead to a situation wherein personal injury, death or severe property or environmental damage could occur. Nuvoton customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Nuvoton for any damages resulting from such improper use or sales.The contents of this document are provided only as a guide for the applications of Nuvoton products. Nuvoton makes no representation or warranties with respect to the accuracy or completeness of the contents of this publication and reserves the right to discontinue or make changes to specifications and product descriptions at any time without notice. No license, whether express or implied, to any intellectual property or other right of Nuvoton or others is granted by this publication. Except as set forth in Nuvoton's Standard Terms and Conditions of Sale, Nuvoton assumes no liability whatsoever and disclaims any express or implied warranty of merchantability, fitness for a particular purpose or infringement of any Intellectual property.The contents of this document are provided “AS IS”, and Nuvoton assumes no liability whatsoever and disclaims any express or implied warranty of merchantability, fitness for a particular purpose or infringement of any Intellectual property. In no event, shall Nuvoton be liable for any damages whatsoever (including, without limitation, damages for loss of profits, business interruption, loss of information) arising out of the use of or inability to use the contents of this documents, even if Nuvoton has been advised of the possibility of such damages.Application examples and alternative uses of any integrated circuit contained in this publication are for illustration only and Nuvoton makes no representation or warranty that such applications shall be suitable for the use specified.The 100-year retention and 100K record cycle projections are based upon accelerated reliability tests, as published in the Nuvoton Reliability Report, and are neither warranted nor guaranteed by Nuvoton.This datasheet and any future addendum to this datasheet is(are) the complete and controlling ISD® ChipCorder®product specifications. In the event any inconsistencies exist between the information in this and other product documentation, or in the event that other product documentation contains information in addition to the information in this, the information contained herein supersedes and governs such other information in its entirety. This datasheet is subject to change without notice.Copyright©2005, Nuvoton Technology Corporation. All rights reserved. ChipCorder®and ISD®are trademarks of Nuvoton Technology Corporation. All other trademarks are properties of their respective owners.Headquarters Nuvoton Technology Corporation America Nuvoton Technology (Shanghai) Ltd.No. 4, Creation Rd. III 2727 North First Street, San Jose, 27F, 299 Yan An W. Rd. Shanghai,Science-Based Industrial Park, CA 95134, U.S.A. 200336 ChinaHsinchu, Taiwan TEL: 1-408-9436666 TEL: 86-21-62365999TEL: 886-3-5770066 FAX: 1-408-5441797 FAX: 86-21-62356998FAX: 886-3-5665577 //Taipei Office Nuvoton Technology Corporation Japan Nuvoton Technology (H.K.) Ltd.9F, No. 480, Pueiguang Rd. 7F Daini-ueno BLDG. 3-7-18 Unit 9-15, 22F, Millennium City,Neihu District Shinyokohama Kohokuku, No. 378 Kwun Tong Rd.,Taipei, 114 Taiwan Yokohama, 222-0033 Kowloon, Hong KongTEL: 886-2-81777168 TEL: 81-45-4781881 TEL: 852-********FAX: 886-2-87153579 FAX: 81-45-4781800 FAX: 852-********Please note that all data and specifications are subject to change without notice.All the trademarks of products and companies mentioned in this datasheet belong to their respective owners.Publication Release Date: June 16, 2011 - 24 - Revision 0.64。

Jiangsu Wenrun Optoelectronic Co. Rev:1SpecificationWenrun P/N:LDD030AUE-103Customer confirmApproved byChecked byIssued byJiangsu Wenrun Optoelectronic Co.,LTD Rev:1 Tel************** Fax ：************* Page 1 of 7 ◆Features:● High efficiency, low power consumption. ● Extremely low current.● Luminous evenly distributed on each segment. ● Low development cost.● This product doesn’t contain restriction Substance, comply ROHS standard.◆Descriptions:● Industrial standard size.● These display provide excellent reliability in bright ambient light. ● These devices are made with white segments and black surface.◆Applications:● Audio equipment or Instrument panels. ● General use for digital indicators. ● Multimedia product.◆Selection Guide:ChipPart No.Material Emitting Color Lens ColorLDD030AUE-103CathodeAlGaInPHigh Super RedWhite DiffusedJiangsu Wenrun Optoelectronic Co.,LTD Rev:1 Tel************** Fax ：************* Page 2 of 7 ◆Absolute Maximum Rating （Ta=25℃）ParameterSymbol High Super RedUnit Power Dissipation/Segment P d 70 mW Peak Forward Current /Segment ① I FP 80 mA Continuous Forward Current/Segment I F 20 mA Reverse Voltage /Segment V R 5 V Operating Temperature Range Topr -40~ +85 ℃ Storage Temperature Range Tstg -40 ~ +85 ℃ Solder Temperature ②Tsol260±5℃Notes ：1、This is the limit current . It is not allowed to use when the product work continuously. 2、Soldering time ≤5 seconds.3、I FP condition: pulse width ≤1ms ,duty cycle ≤1/10◆Electrical Optical Characteristics （Ta=25℃）High Super RedParameterSymbolTyp.Max. UnitTestCondition Luminous Intensity/Segment I V 4.0 -- mcd I F =10mA Forward Voltage /Segment V F 2.0 2.5 V I F =20mA Reverse Current /Segment I R -- 50 uA V R =5V Dominant Wavelength λd 640 -- nm I F =20mA Spectral Line Half Width Δλ30--nm I F =20mAJiangsu Wenrun Optoelectronic Co.,LTD Rev:1 Tel************** Fax ：************* Page 3 of 7 ◆Package Dimensions:NOTES ：∙ All dimensions are in millimetres (mm), Tolerance is ±0.25mm unless otherwise noted.∙ Specifications are subject to change without notice.◆Internal Circuit:Common CathodeLDD030AUE-103Jiangsu Wenrun Optoelectronic Co.,LTD Rev:1 Tel************** Fax ：************* Page 4 of 7 ◆Reliability(1) Test Items and ConditionsNO Test Item Test ConditionsSample Ac/Re 1 Temperature Cycle -40±5℃→25±5℃→85±5℃→25±5℃ (30min ，5min ，30min ，5min) 20 Cycles 20 0/1 2 High Temperature Storage Ta ：100±5℃Test time=1000HRS(-24HRS,+72HRS) 20 0/1 3 High Temperature And High Humidity Working Ta ：85±5℃，R H :85±5%，I F =10mA/seg Test time=500HRS(-24HRS,+72HRS) 20 0/1 4 Low Temperature Storage Ta ：-40±5℃Test time=1000HRS(-24HRS,+72HRS) 20 0/1 5 Operating Life Test Connect with a power I F =10mA/seg Ta=25±5℃Test time=1000HRS(-24HRS,+72HRS) 20 0/1 6 Solder Resistance T.Sol=260±5℃ one timeDwell Time=5±1Secs ，distance 3mm 20 0/1 7Thermal Shock-40±5℃→85±5℃(15min ，15min) 20Cycles200/1(2)Criteria of judging the damageCriteria for judgement Item Symbol Test condition Min. Max. Forward voltage V F I F =10mA/Seg / U.S.L*1.1 Reverse current I R V R =5V / 15uA Luminous intensity I V I F =10mA/Seg L.S.L*0.7/ Wave length λD/λPI F =10mA/Seg /U.S.L ±2nmAppearance/View checkNo mechanical damage* U.S.L: Upper standard level L.S.L: Lower standard levelJiangsu Wenrun Optoelectronic Co.,LTD Rev:1 Tel************** Fax ：************* Page 5 of 7 ◆Typical Electro-Optical Characteristics Curves◆Storage and application notices1、 Storage1. Before opening package: the LEDs should be kept at 18-30℃, related humility: 30-70%RH.They should be used out within 3mothes;2. LEDs should be used out within 24Hs after opening package to avoid the lead frame’s corrode;3. The internal box can not be contacted with ground to prevent absorption of moisture4. No acid, alkali, salt, corrosive and explosive gas; away from sunlight and keep the environment clean;2、 Application1．Do not use any unknown chemical liquid to clean LED, it will damage the LED resin surface; use the alcohol under the room temperature if necessary but less than 1 min;2．When forming lead frame, the lead frame should be bent at a point at least 2mm from the base of epoxy. The forming should be done before soldering which can avoid epoxy’s broken and internal structure’s damage. Forward Current Derating CurveAmbient Temperature Ta(°C)10F o r w a r d C u r r e n t I f (m A )F o r w a r d C u r r e n t I f (m A )Forward Voltage(Vf)-volts01.21.62.02.42.83.2Forward Current vs.Forward VoltageR e l a t i v e L u m i n o u s I n t e n s i t y (%)Wavelength λd (nm)505000257555030402050600650Spectrum Distribution20406080100Ta=25℃700750Jiangsu Wenrun Optoelectronic Co.,LTD Rev:1 Tel************** Fax ：************* Page 6 of 7 Forming must be operated by the specific jig or the qualified operator to make sure the lead frame and distance are as same as the circuit board. Specific is shown as below,Mark:“○” means correct ，“×”means incorrect.3．Do not apply any bending stress to the surface of the LED. The stress to the surface may damage the surface ink color and internal connection which causes the electric character & appearance’s failure. 4．a. Soldering iron power: under 30W; soldering temperature: 295℃±5℃; soldering time: within 3sec.(only1time) ;b. Soldering temperature in solder machine: 250℃±10℃; soldering time: within 5sec.c. Soldering temperature during wave soldering process: 230℃±10℃, soldering time: within 5sec.5．The LEDs should be soldered at the coordinated position on the PCB; the distance from soldering point to epoxy resin should be 3mm at least. If the 2nd soldering process required, 3mins must be left to ensure the high temperature status can return to room temperature. But the recommended soldering time is only 1time in principle.6．If solder the LEDs on one PCB by the soldering iron; do not solder the different lead frames of one LED, but solder in proper sequence; 7．Note of Electrical matter:① One-way conduction, LED does not allow the reverse driving;Jiangsu Wenrun Optoelectronic Co.,LTD Rev:1 Tel************** Fax ：************* Page 7 of 7 ②a. LED is a kind of constant current component which can not be lighted by the constant voltage mode; asmaller voltage fluctuation can cause the large current fluctuation which causes the failure of LED; b. Each LED should be drove under constant current mode if in a parallel circuit design, otherwise, thecolour and brightness will be nonuniform;c. When the environmental temperature rising, the LED junction temperature will rise, internal resistancewill decrease, so the current will be increased by the constant voltage power which short the life span; ③ If the brightness of lighting source can meet the requirement, we recommend using the driving currentless than the rated current, in order to improve the product’s reliability;8．LED is a kind of electrostatic sensitive devises, anti-static measures have to be processed during storage and operation:① LED production workshop should lay anti-static floor and ground connection, the work table have to usethe anti-static materials and cover a table mater with the surface resistance of 106-109Ω② Production machine: REFLOW, SMT equipment, electric iron, test equipment; all the equipments must bewell grounded, and the grounding alternating current impedance should be less than 1.0Ω. A fan need to be installed on the equipments and production processes that easy to generate static electricity; the operators must wear anti-static clothing, shoes, wristband , and gloves, etc. in the process;③ LEDs must be contained in the anti-static box, and all the package material should be the anti-staticmaterials;9．The details electronic characters can refer to our product specification.◆Notes:1、Above specification may be changed without notice. We will reserve authority on material change for above specification.2、When use this product, please observe the absolute maximum ratings and the instructions for the specification sheets. We assume no responsibility for any damage resulting from using of the product which does not comply with the instructions included in the specification sheets.。

通用A/D 转换模块AD-S 系列 技术手册济南·高新区·天辰大街1251号 PC:250101 Tel: +86 (531) 81216100 Fax: 81216101称重专家声明一、AD-S系列A/D转换模块是由山东西泰克仪器有限公司自主设计、研发和生产，可用于制造数字传感器或仪表升级。

二、山东西泰克仪器有限公司保留修改本手册的权利。

三、如果用户有任何技术问题可通过电话(0531 ********)或邮箱(setaq@)方式与我公司联系。

警告一、用户使用前请仔细阅读该手册的内容，如有特殊要求、疑问或建议请与本公司联系。

二、请专业人员调试、检测和维修。

三、本手册只对以称重数字传感器为例，对其特性和使用加以说明。

若作其他A/D用途时请与本公司技术人员联系。

四、在焊接过程中应先保持接大地良好，并注意采取防静电措施。

目录第一章概述 (1)第二章特性及指标 (2)2.1 AD-S122的主要特性 (2)2.2 AD-S122的主要技术指标 (3)第三章线路连接 (4)3.1 传感器的连接 (4)3.2 计算机或仪表的连接 (5)3.3 RS-485总线连接 (6)第四章指令设置 (7)4.1 指令格式 (7)4.2 对指令的应答 (7)4.3 测量值的输出类型 (8)4.4 口令保护 (8)4.5 指令一览表 (9)第五章指令的描述 (10)5.1 接口指令 (10)5.2 标定和修正指令 (15)5.3 测量指令 (22)5.4 特殊指令 (28)5.5 通信实例 (33)第六章指令参数默认值 (36)第七章 AD-S321指标及接线图 (37)7.1 AD-S321的主要特性 (37)7.2 AD-S321的主要技术指标 (37)7.3 传感器的连接 (38)7.4 计算机或仪表的连接 (38)第八章 AD-S322指标及接线图 (40)8.1 AD-S322的主要特性 (40)8.2 AD-S322的主要技术指标 (40)8.3 传感器的连接 (41)8.4 计算机或仪表的连接 (41)修订（20080509） (43)1 修改零点跟踪指令（ZTR） (43)2 增加零点跟踪速率指令（ZTS） (43)3 增加手动清零指令（ZCL） (43)4 增加测量值寄存器输出指令（MSR） (44)5 增加测量值输出精简指令 (45)6 增加测量值寄存器输出精简指令 (45)7 修改了AD-S信号处理和指令流程图 (46)第一章 概述 Tel:0531-******** Fax:81216101第一章概述AD-S122数字传感器专用A/D转换模块功能强大，能对各类有源或无源的模拟传感器的输出信号进行硬件处理和软件规格化处理。