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QDSC-160智能操控说明书

QDSC-160智能操控说明书
3、主要功能
-2地址:青岛经济技术开发区前湾港路 579 号科技产业园 电话:0532-86877373 传真:80698505
QDSC-160 智能操控装置使用说明书
01 断路器合指示
09 数码管显示
02 断路器分指示
10 过热指示
03(1)、03(2)工作位置指示
11 加热 2 指示
04(1)、04(2)试验位置指示
C相 11 接地 12
25
温湿度传感器1
A 27
485接口
26
温湿度传感器2
B 28
开孔尺寸
-5地址:青岛经济技术开发区前湾港路 579 号科技产业园
电话:0532-86877373 传真:80698505
QDSC-160 智能操控装置使用说明书
6、运输与贮存
QDSC-160 开关柜智能操控装置运输和拆封不应受到剧烈冲击,应根据 GB/T15464 《仪器仪表包装通用技术条件》的规定运输和储存。保存开关柜智能操控装置应在原 包装内,保存的地方环境温度为 0℃~+40℃,相对湿度不超过 85%,空气中无腐蚀 性气体。开关柜智能操控装置在仓库里保存,应放在台架上,叠放高度不超过 2 箱, 拆箱后,单只包装的开关柜智能操控装置叠放高度不超过 3 只。
电话:0532-86877373 传真:80698505
QDSC-160 智能操控装置使用说明书 止加热。
当环境温度≥50℃时,无条件停止加热,防止过热损伤,过热指示灯亮、报警输 出触点闭合闸状态,误将小车从试验位置推至工作位置时,语音提示“请分断路器”。 2、接地开关合闸状态,误将小车从试验位置推至工作位置时,语音提示“请分接地开 关”。 3、断路器合闸状态、接地开关合闸状态,误将小车从试验位置推至工作位置时,语音 提示“请分断路器、请分接地开关”。 4、当柜体主回路送电时,语音提示“本回路已带电”。

奥德维特说明书

奥德维特说明书

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。

Littelfuse 保护电路器件 SPD2 4+0 系列商品说明书

Littelfuse 保护电路器件 SPD2 4+0 系列商品说明书

Class II/Type 2/Type 1 CA Pluggable Multi-PoleDescriptionSurge protection devices (SPDs) provide equipment protection from transient overvoltage events lasting micro-seconds. By limiting the overvoltage to the equipment during these events, costly damage and downtime can be mitigated.The surge protection devices for the 4+0 configuration are available for 120 V to 480 V nominal voltage sub-distribution board applications.RCLegend L Line N Neutral Protective EarthRC Remote ContactsTD Thermal DisconnectionInternal ConfigurationFeatures & BenefitsModule & Base Ordering InformationCapability to clamp and withstand high-energy transients surge events and higher nominal discharge current to prevent disruption, downtime, and degradation or damage to equipment UL and VDE-IEC compliant in single part number One component can be utilized globally, reducing inventory needs and simplifying allocation of parts Interlocking tab mechanismSecures module to withstand vibration No additionalovercurrent protection devices required in UL applicationsReduces the number of components and costs required for protectionCompact footprint I ncreases panel design flexibilityVisual life indicatorQuick visual determines module replacement status to avoid loss of protectionPluggable modules Fast and simple to replace, minimizing maintenance and downtime. No tools required Thermal protection Eliminates catastrophic failureIP20 protection ratingFinger-safe design increases worker protectionPluggable RC ConnectorReplacement Module Ordering InformationDisclaimer Notice – Information furnished is believed to be accurate and reliable. However, users should independently evaluate the suitability of and test each product selected for their own applications. Littelfuse products are not designed for, and may not be used in, all applications. Read complete Disclaimer Notice at /product-disclaimer.Thermal Protection YesOperating State/Fault Indica tionGreen Flag/No Green FlagRemote Contact Switching Ca pa city AC: 250 V/1 A, 125 V/1 A;DC: 48 V/0.5 A, 24 V/0.5 A, 12 V/0.5 A Remote Contact Conductor Cross Section (max) 1.5 mm 2 (16 AWG) (Solid)Standards Passed* IEC 61643-11:2011 EN 61643-11:2012UL 1449, 4th editionProduct Dimensions 4TE Module and Base H 90.0 mm (3.54”); W 72.0 mm (2.84”);D 70.0 mm (2.76”)1TE Replacement Module H 45.0 mm (1.77”); W 18.0 mm (0.71”);D 57.2mm (2.25”)Package Dimensions 4TE Module and Base H 102.0 mm (4.01”); W 82.0 mm (3.23”);D 110.0 mm (4.33”)1TE Replacement Module H 102.0 mm (4.01”); W 28.0 mm (1.10”);D 110.0 mm (4.33”)SpecificationsNetwork Systems TN-S Mode of Protection L-PE, N-PE Nominal Discharge Current (8/20 µs) (I n ) 20 kA Maximum Discharge Current (8/20 µs) (I max ) Up to 50 kA Protective Elements High Energy MOV Response Time (t A ) < 25 ns Back-Up Fuse (max) 315 A / 250 A Gg Number of Ports 1Mechanical & Environmental Operating Temperature Range (T a ) -40 °C to +80 °C (-40 °F to +185 °F)Permissible Operating Humidity (RH) 5% to 95%Altitude (max) 4,000 m (13,123 ft)Terminal Screw Torque (M max ) 4.5 Nm (39.9 lbf-in)Conductor Cross Section (max) 35 mm² (2 AWG) (Solid, Stranded)/ 25 mm 2 (4 AWG) (Flexible)Mounting 35 mm DIN Rail, EN60715Degree of Protection IP20 (built-in)Housing Material Thermoplastic: Extinguishing Degree UL 94 V-0*SPD2-550-4P0-R and SPD2-550-M are UL Listed onlyWarranty – Visit /warranty for details.Module & Base Part Numbering SystemModule Only Part Numbering SystemSPD2 VVV MModule OnlySeriesMaximum Continuous Operating AC VoltageSPD2 VVV XPZ RModule & Base SeriesNeutralNumber of PolesMaximum Continuous Operating AC Voltage(1=yes or 0=no)。

电工基础实训装置(KMDQ-03)技术规格书

电工基础实训装置(KMDQ-03)技术规格书

电工基础实训装置技术规格书吐哈油田供水供电处第一部分基本要求1范围本技术规格书对电工基础实训装置的功能设计、材料、结构、性能、安装、试验和采办提出了最低要求。

本文件并不能免除供货商应对所提供的设备及其辅助系统配置齐全、性能要求合理、可适用性和可靠性负责。

2名词定义本技术规格书用到的名词定义如下:业主:项目投资人或其委托的管理方;设计:承担项目工程设计任务的设计公司或组织;供货商:是指按照本技术规格书的要求为业主设计、制造、提供成套设备/材料的公司或厂家;分包商:负责设计和制造分包合同所规定的设备/材料公司或厂家;技术规格书:业主和设计提供的完整的技术规定,包括技术要求、数据单;技术条件:各工程项目通用并统一的技术要求;数据单:是指根据各工程项目实际情况,填入的用于订货的参数;质保期:是指供货商承诺的对所供产品因质量问题而出现故障时提供免费维修及保养的时间段;3项目总体要求3.1供货商资质要求3.1.1供货商证书要求供货商所提供的产品应是制造厂的标准的、技术先进的成熟产品,符合相关国标或行(部)标规定,有合格证。

供货商及分包商应具有国家认证机构颁发的有效ISO9001质量体系认证证书。

3.1.2供货商业绩和经验要求供货商所提供的产品应有类似规格产品在本规格书中所提供的环境条件下成功运行三年以上的经历。

供货商必须提供产品的应用历史和该产品近三年内类似工程的业绩,包括用户名称和地点,联系电话,供货年份等信息资料。

供货商应能对现场进行技术服务。

投标书中应说明投标者的维修能力和方式。

3.2强制技术条款供货商所提供的产品应是制造厂的标准产品,并且最少有类似规格产品在本规格书中所提供的环境条件下成功运行三年以上的经历。

供货商在投标时应同时提供产品样品及产品说明书,若供货产品如与样品不一致,业主保留退货的权利。

产品必须满足技术规格书要求。

制造商应具有ISO9001质量保证体系认证证书。

3.3投标承诺3.3.1供货商职责供货商应对产品的设计、材料采购、工件的制造、零部件的组装、图纸、资料的提供以及检验和在不同场所进行的试验负有完全责任。

施耐德宝光微机保护产品选型手册说明书

施耐德宝光微机保护产品选型手册说明书

Schneider Baoguang关于施耐德宝光施耐德(陕西)宝光电器有限公司(简称SSBEA或施耐德宝光)是施耐德电气有限公司与陕西宝光集团有限公司共同组建的一家专业从事中、系统及相关产品研发、生产和销售的中外合资企业。

高新科技园区。

在世界五百强企业与中国中压电器龙头企业的通力合作下,作为国内中压行业著名的“宝光”品牌真空断路器的唯一合法生产商,施耐德宝光秉承精益生产科学理念,凭借品质过硬、安全可靠的全系列高品质产品和覆盖用户全生命周期的完善服务,帮助用户实现卓越的生产运营绩效和市场竞争力,用品质的“不妥协”实现可持续发展之道。

我们致力于将施耐德宝光打造成为中国卓越和高效的中压断路器和系统的制造平台,依托自身的专业优势,为广大用户和合作伙伴提供领先的总成本和长期全面的安心保障。

目录V5系列新一代微机保护测控装置 (1)产品概述 (1)产品特点 (2)型号及功能说明 (3)保护功能 (4)测控功能 (6)技术参数 (7)典型接线图 (8)外形尺寸及面板开孔尺寸 (11)V5订货选型表 (12)V3系列微机保护测控装置 (13)产品概述 (13)产品特点 (14)型号及功能说明 (15)保护功能 (16)测控功能 (17)技术参数 (18)典型接线图 (19)外形尺寸及面板开孔尺寸 (21)V3订货选型表 (22)V3U微机综合保护装置 (23)产品概述 (23)型号及功能说明 (24)保护功能 (25)测控功能 (26)技术参数 (27)外形尺寸图/典型接线图 (28)后台系统 (29)系统总体结构 (30)V5系列新一代微机保护测控装置是一种用于测量、控制、保护、通讯一体化的智能设备,产品主要用于工业及能源领域对线路、变压器、电动机及电容器的保护测控。

此产品外观时尚、结构精巧、大屏幕液晶显示,图形化中文菜单,四位方向导航盘,操作快捷方便。

内部基于SOC芯片软件方案,32位处理器,并根据硬件进行深度改良优化的嵌入式操作系统,使CPU运行效率更高。

德力西电气 骑士系列微断样本 产品说明书

德力西电气 骑士系列微断样本 产品说明书

小型标准断路器102CDB6H-63小型标准断路器CDB6H-63小型标准断路器具有以下功能104产品选型及尺寸图CDB6H-63小型标准断路器2P 3P 4P 1P 接线示意图外形及安装尺寸105CDB6HTC-63小型标准断路器• 短路保护• 过载保护• 隔离功能CDB6HTC-63小型标准断路器具有以下功能主要特性额定工作电压(V)1P:230/400、240/415VAC ,DC 80V2P: AC 400/415V,DC125V3P-4P: AC 400/415V额定电流(A)1-63额定频率(Hz)50/60极数1P,2P,3P,4P 分断能力(kA)6符合标准GB/T 14048.2、IEC60947-2符合认证电气特性额定绝缘电压 Ui (V )500最大工作电压 Uemax 1P , (V )240/415 AC ,80DC 2P ,3P ,4P (V )415 AC ,125VDC 额定短路能力 Icn (kA )6,10额定冲击耐受电压 Uimp(1.2/50) (kV )6介电测试电压2kV (50/60HZ,1分钟)使用类别A 隔离功能具备污染等级3脱扣形式热磁脱扣脱扣曲线 li(B) 型曲线4ln(AC)、5ln(DC)█ li(C) 型曲线8ln(AC)、10ln(DC)█ li(D) 型曲线12ln(AC)、15ln(DC)█电气及机械附件有106107产品选型及尺寸图CDB6HTC-63小型标准断路器2P 3P 4P 1P接线示意图外形及安装尺寸108• 短路保护• 过载保护• 隔离功能CDB6HLES-63小型漏电保护断路器具有以下功能主要特性额定工作电压(V )1P+N,2P :230/240 AC 2P,3P,3P+N,4P :400/415 AC额定电流(A )一般型:1~63S 型(延时型):32~63额定频率(Hz )50/60极数1P+N,2P,3P,3P+N,4P 分断能力(kA )6,10额定剩余动作电流(mA )一般型:10,30,50,75,100,300S 型(延时型):50,75,100,300过压保护功能(V )(280±14)VAC (仅适用于1P+N,2P,C 型产品)符合标准GB/T 16917.1、IEC61009-1符合认证注:CE 认证仅2P 、3P 、4P电气特性额定绝缘电压 Ui (V )500最大工作电压 Uemax 1P+N,2P (V )240 AC 3P ,3P+N,4P (V )415 AC 额定短路能力 Icn (kA )6,10额定冲击耐受电压 Uimp (1.2/50) (kV )4介质测试电压2kV (50/60Hz,1 分钟)隔离功能具备漏电类型A 、AC 型污染等级2脱扣形式热磁脱扣脱扣曲线 B 型曲线(3ln~5ln)█ C 型曲线(5ln~10ln)█ D 型曲线(10ln~14ln)█电气及机械附件有• 漏电保护功能• 过压保护功能109产品选型及尺寸图CDB6HLES-63小型漏电保护断路器110111• 短路保护• 过载保护• 隔离功能CDB6H-80小型标准断路器具有以下功能主要特性额定工作电压(V )1P :230/400、240/415 AC 2P,3P,4P :400/415 AC额定电流(A )80额定频率(Hz )50/60极数1P,2P,3P,4P 分断能力(kA )6符合标准GB/T 10963.1、IEC60898-1符合认证电气特性额定绝缘电压 Ui (V )500最大工作电压 Uemax 1P , (V )240/415 AC 2P ,3P ,4P (V )415 AC 额定短路能力 Icn (kA )6额定冲击耐受电压 Uimp (1.2/50) (kV )4介质测试电压2kV (50/60Hz,1 分钟)使用类别A 隔离功能具备污染等级2脱扣形式热磁脱扣脱扣曲线 B 型曲线(3ln~5ln )█ C 型曲线(5ln~10ln )█D 型曲线(10ln~14ln )█电气及机械附件有1121132P3P1P接线示意图外形及安装尺寸产品选型及尺寸图CDB6H-80小型标准断路器4P114B 特性B 脱扣特性微型断路器符合GB/T 10963.1 IEC60898标准,适用于为阻性负载或无冲击电流的负载提供保护。

SD系列保护设备产品介绍说明书

SD系列保护设备产品介绍说明书

The SD Series is a range of surge protection devices combining unparalleled packing densities, application versatility, proven reliable hybrid circuitry, simple installation and optional ‘loop disconnect’facilities – features which make the series the ultimate surge protection solution for process equipment, systems I/O and communications networks.The exceptionally high packing densities are the consequence of an ultra slim ‘footprint’ for individual modules which can thus ‘double-up’ as feedback terminals. Each module provides full hybrid surge protection for 2 and 3 wire loop protection.Modules with a comprehensive range of voltage ratings cover all process related signals such as RTDs, THCs, 4 to 20mA loops, telemetry outstations, shut-down systems and fire and gas detectors. Optional ‘loop disconnect’,is a feature which allows commissioning and maintenance to be carried out without removal of the surge protection device.This facility is provided by the SD07, SD16,SD32 and SD55 units. In addition, a thirdconnection on the field and safe side ofthe protector is provided in order toterminate screens safely.For three wire applications the speciallydesigned SD RTD(ResistanceTemperature Detector) and the SD32T3,(for separately powered 4-20mA loops)provide full 3-wire protection in a singlecompact unit. The recommended choicefor the protection of 3-wire pressuretransducers on low power circuits is theSD07R3.For higher bandwidth applications,theSDR series has been developed to meetthe demands of today’s highest speedcommunication systems.120V and 240V AC versionsare available for I/O andpower supplies up tothree Amps of loadcurrent.Telephone networks can be protected bythe SDPSTN.One simple manual operation clampsmodules securely onto DIN rail, whichautomatically provides the essential high-integrity earth connection.‘Top-hat’ (T-section) DIN rail is generallysuitable for mounting SD modulesalthough for adverse environments, aspecially-plated version is available fromMTL Surge Technologies. Acomprehensive range of mounting andearthing accessories can also besupplied, see page 7 for furtherdetails.Ultra-slim user-friendly devices for protecting electronic equipment and systems against surges on signal and I/O cablingSD SeriesO Range of ATEX Certified intrinsically safe surge protectorsO Ultra-slim space-saving design; easy installationO Multistage hybrid protection circuitry – 10kA maximum surge currentO Range of voltage ratings -- to suit all process I/O applicationsO High bandwidth, low resistance, RTD, PSTN and 3-wire transmitter versions availableGuide to applications and selectionAnalogue inputs(high-level)2-wire transmitters, 4-20mA, conventional and smartThe SPDs recommended for use with ‘conventional’and ‘smart’ 4-20mA transmitters(fed by a well-regulated supply) are the SD32 and SD55, the choice depending upon the maximum working voltage of the system (32V and 55V respectively). The diagram illustrates a prime example of an application for which the fuse/disconnect facility is particularly useful, however, both models are available in ‘X’versions without the optional fuse/disconnect feature.Analogue inputs(low-level)RTDsThese applications are best served using the SD RTD. F or optimum accuracy, the energising current should be chosen to ensure the voltage across the RTD does not exceed 1V over the full measurement range. When using a PT100 device, we recommend an energising current of 1mA.ac sensors, photocells, THCs, mV sources and turbine flowmetersThe SD07 or SD16 (depending upon the operational voltage) are the favoured choices for this application. SD07X and SD16X are also suitable.4561232xSD16X, SD32XPIVOVSD16 SD32 SD55SD16X SD32X SD55X (no fuse)456123SDVLogic signalOVSD07 SD16 SD32 SD55SD07X SD16X SD32X SD55X (no fuse)456123LED AlarmSD32X32V maxSD32SD32X(no fuse)IncomingtelephonelineModem,fax ortelephone456123Final output fromPLC,DCS,SCADAetc.110/120V acor220/240V acAnalogue outputsController outputs (I/P converters)F or this application, the recommendations are the SD16, SD32 and SD55 (and the equivalent ‘X’ versions), the final choice depending upon the operating voltage.Digital (on/off) inputsSwitchesSuitable SPDs for switches include the SD07, SD16, SD32 and SD55 modules – the choice depending upon the operating voltage of the system. The ‘X’ versions of these are also suitable. Digital (on/off) outputs Alarms, LEDs, solenoid valves, etcThe recommended choice for this application is the SD32 or SD32X.Telemetry (PSTN)Telemetry outstationsThe SD PSTN has been designed specifically for the protection of signals transmitted on public switched telephone networks.AC supplied equipmentPLC, I/O systemsFor systems on 110-120V ac, the SD150X is the recommended choice and for 220-240V ac systems, the SD275X is recommended.Controller outputs(I/P converters)SwitchesAlarms, LEDs,solenoid valves, etc.Telecom linePLC, I/O systemsFIELD CIRCUIT PROTECTED CIRCUIT32-wire transmitters or sensors4-20mA transmitters, conventional and smartWhere the TP48 is not an acceptable solution, either because of technical suitability or difficulties in mounting, the SD16X, SD32X and SD55X are an excellent alternative.3-wire transmitters or sensorsVibration Sensors and 4-20mA loop processcontrol systems invariably require threewire connections, when powered from anexternal source.This may be accomplished in one unit by usingthe SD32T3 three terminal Surge ProtectionDevice (SPD).Because the SD32T3 protects all threeconductors within the same unit, higherprotection is achieved, as the SPD hybridcircuitry is common to all three wires.The SD07R3 is available for the protection of 3-wire pressure transducers on low powercircuits.4-wire transmitters orsensorsFlow meters, level detectors, etc.4-wire systems such as level detectors requiretwo SDs, one for the supply and the other forthe transmitter output. Generally the voltagesacross the pairs are similar and so therecommended choice would be a pair ofSD16X, SD32X or SD55Xs. However, mainspowered transmitters should be protected withan SD150X or 275X (depending upon supplyvoltage) for the supply inputs.Loadcells are catered for by MTL SurgeTechnologies’ LC30 which is suitable for both 4and 6-wire load cells.series makes it the obvious choice for transmitter protection.The SDs within the junction box should be installed no further than one metre away but as close as possible to the sensor or transmitter they are protecting. A bond is required from the general mass of steelwork to the sensor or transmitter housing either using a flat short braid or a cable of at least 4mm2cross sectional area. In most instances this bond is automatically made by fixing the metallic transmitter housing to the plant structure. This bond ensures the voltage difference between the signal conductors and the transmitter housing is below the transmitter’s insulation rating. Please note that the transmitters or sensors are connected to the ‘Protected Equipment’ terminals of the SD and not the ‘Field Cables’.456123456123456123456123TP48SD32R (no fuse)SD32R (no fuse)SD32R (no fuse)TP48Communication systems protectionHigh speed data links between buildings or one part of a plant to another have become more common with the widespread use of smart transmitters and the increase in unmanned installations. The SD series has an SPD suitable for all process I/O applications with a choice of low resistance units, high bandwidth and a variety of voltage variants. The SDR series has been specially designed to meet the requirements for high speed data links with an extremely high bandwidth.Communication systemsRS232, RS422, RS485The recommended choice for these applications is the SD16R or SD32R depending on the maximum driver signal.Bus powered systemsThere are a variety of bus powered systems specially designed for the process industry. The ideal surge protection device for these systems is the SD32R as it has a very high bandwidth and a modest in-line resistance.Typical ApplicationsTable 1 shows suitable SD devices for different applications. In some applications alternative devices may be used, for example, where lower in-line resistance or a higher voltage power supply is used.Telematic have operationally tested therecommended SD series with representative highways listed but no formal approval for their use in systems by the respective bodies has been sought.RS232, RS422, RS485Bus powered systemsTable 1TP PROTECTED FIELD CIRCUITSD PROTECTED HOST CIRCUITPROTECTED FIELD CIRCUITSD PROTECTED HOST CIRCUITApplicationPreferred SPDAlternativeAllen Bradley Data Highway Plus SD16RFoundation Fieldbus 31.25kbits/s voltage mode SD32R 1.0/2.5 Mbits/s SD55R HART SD32X SD32, SD32R Honeywell DE SD32XSD32, SD32RLonWorks FFT-10SD32R LPT-10SD55R TP-78SD07R IS78†SD32R Modbus ‘& Modbus Plus (RS485)SD16R PROFIBUS DPSD32R PA (IEC 1158, 31.25 kbits/s)SD32R RS232SD16SD16XRS422SD07R RS423SD07R RS485SD07R WorldRP (IEC 1158)SD32R31.25 kbits/s voltage mode 1.0/2.5 Mbits/sSD55RThe SDs should be mounted on the field wiring side to ensure that any surges entering from the field do not damage any intrinsically safe barriers or galvanic isolators in the system. The SDs and IS interfaces should be mounted close to each other but on separate DIN rails in order to maintain the required 50mm clearance between safe area and hazardous area terminals.EarthingThe recommended earthing for field mounted devices has been illustrated previously but it is the earthing at the control panel that is more critical as there are usually a number of earthing systems, each with their own requirements. The earthing system illustrated here replaces the instrument 0V bond, the control system PSU bond and the IS earth with one single earth connection to meet all the design requirements and give the most effective protection against the effects of lightning induced surges.Zone 0 are considered real enough to require preventative measures. IEC 60079-14 (1996-12) Electrical apparatus for explosive gas atmospheres Part 14: Electrical installations in hazardous areas (other than mines) stresses the importance of SPDs in hazardous areas. An outdoor installation where there is a high likelihood of both lightning induced transients and combustible gases requires the installation of SPDs to prevent possible ignition of the gases. Areas seen particularly at risk include flammable liquid storage tanks, effluent treatment plants, distillation columns in petrochemical works and gas pipelines.SPDs for transmitter protection should be installed in Zone 1 but sufficiently close to the Zone 0 boundary to prevent high voltages entering Zone 0. The distance from the SPD to Zone 0 should be less than one metre where possible. However, in practice the SPD would normally be mounted on the transmitter or sensor housing which usually lies in Zone 1and is very close to Zone 0. Because there is only a very small free volume, the SD Series is suitable for mounting in flameproof or explosion proof enclosures.Zone 2The SD series is suitable for protecting electrical circuits in Division 2, Zone 2 and can be used without affecting the safety aspects of the circuit.Non-incendive (low-current) circuits can be protected using any SD series unit mounted in either the safe or hazardous area including those with the fuse disconnect facility. Non arcing (high current) circuits can also be protected except that SPDs with the fuse disconnect facility may only be mounted in the safe area. F or use in these circuits the units must be mounted in a suitable enclosure, normally the minimum requirements are IP54 and 7Nm resistance to impact. The SD series is self certified by Telematic Ltd as being suitable for this purpose.CertificationIntroducing surge protection into Intrinsically Safe (IS) circuits is trouble free as long as the current and power parameters are not exceeded. In the SD Series, the SD**X, SD**R,SD**R3, SD RTD and SD**T3 all have ATEX certification for use in IS circuits located in Zones 0, 1 or 2. The certification parameters for the SD**X and SD**T3 are:EEx ia IIC T4, Li = 0.22mH Ii = 260mA for Ui up to 20V Ii = 175mA for Ui up to 26V Ii = 140mA for Ui up to 28V Ii = 65mA for Ui up to 60VThe certification parameters for the SD**R,SD**R3 and SD RTD are:EEx ia IIC T4, Li = 0Ii = 260mA for Ui up to 60VThe power rating for each of the above is dependent on the table shown below.Pi = 1W (–30°C to +75°C)Pi = 1.2W (–30°C to +60°C) Pi = 1.3W (–30°C to +40°C) The SD** Series are classifed as simple apparatus and are intended for use in Zone 2 or safe areas only, because their fuses are not fully encapsulated.SD Series mounting kits and accessories The SD Series has a full range of mounting kits and accessories to simplify installation and tagging of individual loops. Insulating spacers (ISP7000) are available to allow mounting of the units onto backplanes without compromising correct earthing practice.These are placed at regular intervals along the rail or at each end as required. Earth connections can be made to the DIN rail via the earth terminal (ETL7000). Weatherproof enclosures are also available with all the necessary mounting accessories to install the SD series surge protection devices.Two tagging systems are available. One consists of tagging strips (TAG57) with labels (TGL57) mounted on posts (IMB57) at each end of a row of surge protection devices (SPDs). The other consists of separate tagging identifiers (BRI7000) mounted on the tops of individual SPDs. Both methods can be used conjointly. Replaceable fuses or solid links are available in packs of 5 (SD-F25, SD-F05 and SD-LNK). 7BRI700012BIL7000/BIL7000LSpecification(all figures typical at 25°C unless otherwise stated)Note: all figures are typical at +25°C unless otherwise stated; *standard fuse; +over full working temperature range; †at 20mA with a 250mA standard fuse; ‡these units need external 3A fuses; ^Signal; **Power & Common; maximum energising current depends upon RTD resistance.ProtectionFull hybrid line to lineEach line to screen/groundNominal discharge surge current (I n )10kA (8/20µs),(not applicable to SD150X and SD275X)Nominal discharge surge current (I n )6.5kA (8/20µs),(SD150X and SD275X only)Reaction time (T a )Within nanoseconds (10–9s)RTD resistance range (SD RTD )10 to 1500ΩDegradation accuracy (SD RTD at 1mA)0.1% (RTD resistance >100Ω)0.1Ω(RTD resistance < 100Ω)Ambient temperature–30°C to +75°C (working)–40°C to +80°C (storage)Humidity5 to 95% RH (non-condensing)Terminals2.5mm 2(12 AWG)MountingT-section DIN-rail(35 x 7.5 or 35 x 15mm rail)Weight70g approximately Case flammability UL94 V-2EMC complianceTo Generic Immunity Standards, EN 50082, part 2 for industrial environments R&TTE complianceEN 50082-2 : 1995EN 41003 : 1999EN 60950 : 1992(not applicable to SD150X and SD275X)LVD complianceSD150X & SD275X EN 60950 : 1992EN 61010 : 1995SD PSTNEN 41003 : 1999IEC complianceEN 61643-21:2001To order specify -Order by module, as listed in the specification table and/or accessory part numbers as defined on page 7.Note: In accordance with our policy of continuous improvement,we reserve the right to change the product’s specification without notice.Definitions of terminology used in table 1Working voltage (U n )Maximum voltage between lines or lines/ground for the specified leakage current 2Maximum leakage current (I c )Maximum current drawn by the SPD at the。

电源规格书

电源规格书

电源规格书型号: DP400W-6.5V 版本: A1日期:2013/2/20产品版本历史目录1电气性能指标 ................................................................................................................ 错误!未定义书签。

1.1输入特性 .............................................................................................................. 错误!未定义书签。

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1.2.5输出超调 .................................................................................................... 错误!未定义书签。

东方机电设备D-系列产品说明书

东方机电设备D-系列产品说明书

IntroductionEZSAccessories InstallationEZC EZHC EZHP Accessories Installation DRL Accessories Installation DG Accessories InstallationMotorized Linear SlidesMotorized CylindersCompact Linear Actuators Hollow Rotary ActuatorsConnection and Operation■Names and Functions of Driver Parts●Power Input ConnectorMotorConnector□2□4□5□1□3Tables of each product settings Page ➜ D-154●With the high-resolution motor, the resolution is one-half the values specified below.●With the high-resolution motor, the resolution is one-half the values specified below.Notes:The resolutions are theoretical values.●The resolution is calculated by dividing the base resolution by the number of microstep.●The numbers of microsteps that can be specified by the●"Resolution Select" signal are limited to those selected in resolution 1 or resolution 2. Do not change the●"Resolution Select" signal input or resolution select switch while the actuator is operating. It may cause malfunction.IntroductionEZSAccessories Installation EZC EZHC EZHP Accessories Installation DRL Accessories Installation DG Accessories InstallationMotorized Linear SlidesMotorized Cylinders Compact Linear Actuators Hollow Rotary ActuatorsPower Supply◇Use a power supply that can supply sufficient input current.When power supply capacity is insufficient, a decrease in actuator output can cause the following malfunctions:Actuator does not move properly at high-speed (insufficient thrust). ●Slow actuator startup and stopping●C onnecting the Electromagnetic Brake to ◇Power SupplyConnect the red/white lead from the actuator to the ●+24 VDC terminal on the DC power supply and the black/white lead to the GND terminal. (The electromagnetic brake leads have polarity. The electromagnetic brake will not operate if the leads are connected in reverse polarity.)For the electromagnetic brake, use a power supply of 24 VDC ●±5%, 0.1 A or more for DRL42, or 24 VDC ±5%, 0.3 A or more for DRL60.To connect the electromagnetic brake to the DC power supply, use a ●shielded cable of AWG24 or thicker and keep the wiring distance to a minimum. Be sure to use the supplied surge suppressor to protect switch contact and suppress noise.Notes on Wiring◇Use twisted-pair wires of AWG24 to 22 and 2 m (6.6 ft.) ● or less in length for the signal lines.Note that as the length of the pulse signal line increases, the maximum ●transmission frequency decreases. Technical reference ➜ F-67Use wires of AWG22 for the power supply lines.●When assembling the connector, use the hand-operated crimp tool or the crimped driver lead wire set (sold separately). The crimp tool is not provided with the package. It must be purchased separately.Signal lines should be kept at least 2 cm (0.79 in.) away from power lines ●(power supply lines and motor lines). Do not wire the signal lines with the power lines in the same duct or bundle them together.Extension of the motor leads should be within 10 m (32.8 ft.).●If noise generated by the wiring and layout of motor cables and/or power ●cables causes a problem, try shielding the cables or insert ferrite cores.Incorrect connection of DC power input will lead to driver damage. Make ●sure that the polarity is correct before turning the power on.Connection Diagram●DriverController Input/Output Signal Connection◇Keep the input signal V ●0 between 5 VDC and 24 VDC.When V 0 is equal to 5 VDC, the external resistor R 1 is not necessary. When V 0 is above 5 VDC, connect R 1 to keep the current between 10 mA and 20 mA.Example: When V 0 is 24 VDC R 1: 1.5 to 2.2 k Ω, 0.5 W or moreKeep the output signal voltage V ●0 between 5 VDC and 24 VDC, current 10 mA or less. When V 0 is above 10 mA, connect R 2 to keep the current 10 mA or less.Description of Input/Output Signals●Pulse (CW) and Rotation Direction (CCW) Input SignalInput Circuit and Sample Connection◇Notes:Keep the input signal voltage V ●0 between 5 VDC and 24 VDC.When V ●0 is equal to 5 VDC, the external resistor R 1 is not necessary. When V 0 is above 5 VDC, connect R 1 to keep the current between 10 mA and 20 mA.Pulse Waveform Characteristics◇ON ON Pulse Input SignalRotation Direction Input Signal 2Pulse Duty: 50% and belowThe shaded area indicates when the photocoupler diode is ON. The actuator moves when the ✽photocoupler state changes from ON to OFF.The minimum interval time when changing rotation direction 10 ●μs is shown as a responsetime of circuit. This value varies greatly depending on the actuator type and load inertia.Pulse Input Mode ◇1-Pulse Input Mode●The 1-pulse input mode uses "Pulse" and "Rotation Direction" signals. When the "Pulse" input is switched from ON to OFF while the "Rotation Direction" input is ON, the screw shaft moves one step forward. When the "Pulse" input is switched from ON to OFF while the "Rotation Direction" input is OFF , the screw shaft moves onestep backward.ON OFFON OFFMovement of the Screw Shaft Pulse InputRotation Direction Backward DirectionForward Direction 2-Pulse Input Mode●The 2-pulse input mode uses "CW" and "CCW" pulse signals.When the "CW" input is switched from ON to OFF , the screw shaft moves one step forward. When the "CCW" input is switched from ON to OFF , the screw shaft moves one step backward.CW Input CCW InputScrew ShaftON ON All Windings Off (A.W.OFF)/Resolution Select (C/S)/Automatic Current Cutback Release (C.D.INH) Input SignalInput Circuit and Sample Connection◇Note:Keep the input signal voltage V ●0 between 5 VDC and 24 VDC. When V 0 is equal to 5 VDC, the external resistor R 1 is not necessary. When V 0 is above 5 VDC, connect R 1 to keep the current between 10 mA and 20 mA.All Windings Off (A.W.OFF) Input Signal ◇Pin No.⑤, ⑥This signal is used when moving the screw shaft for manual ●positioning.When the "All Windings Off" input is turned "ON," the motor ●current turns off and the actuator loses its holding torque.When the "All Windings Off" input is turned "OFF ," the motor ●current turns on and the actuator regains its holding torque.ON OFFAll Windings Off SignalMotor Current Motor Holding TorqueNote:When operating the actuator, this switch must be "OFF."●R esolution Select (C/S) Input Signal ◇Pin No.⑦,⑧This signal is used to switch between two resolutions set by ●resolution setting switch (DATA1, DATA2). When the "Resolution Select" input is in the "photocoupler OFF" state, the resolution set by resolution setting switch DATA1 is selected. When the "Resolution Select" input is in the "photocoupler ON" state, the resolution set by resolution setting switch DATA2 is selected.Example: C hanging the resolution from 0.0004 mm (0.000016 in.)(10 microsteps/step) to 0.004 mm (0.00016 in.) (1 microsteps/step) (DRL42P )CW PulseActuatorResolution Select Signal (DATA1)(DATA2)10 Pulses1 PulseON OFFA utomatic Current Cutback Release (C.D.INH) Input Signal ◇Pin No.⑨, ⑩Turning the "Automatic Current Cutback Release" input "ON" will ●disable the automatic current cutback function when the actuator is at standstill. Turning the "Automatic Current Cutback Release" input "OFF" will enable the automatic current cutback function. When the automatic current cutback function is enabled, the output current to the motor will be automatically reduced within approximately 0.1 second after the pulse input is stopped, thus suppressing heat generation from the motor and driver.IntroductionEZSAccessories Installation EZC EZHC EZHP Accessories Installation DRL Accessories Installation DG Accessories InstallationMotorized Linear SlidesMotorized Cylinders Compact Linear Actuators Hollow Rotary ActuatorsExcitation Timing (TIM.) Output SignalOutput Circuit and Sample Connection◇Note:Keep the output signal voltage V ●0 between 5 VDC and 24 VDC, current 10 mA or less.When V 0 is above 10 mA, connect the external resistor R 2 as shown in the figure to keep the current 10 mA or less.This signal is used for precise home detection, etc.●The "Excitation Timing" output comes on every particular amount Excitation Timing OutputON OFFMovement of the Screw Shaft Timing Chart●The shaded section indicates that the photocoupler is on.ActuatorDriver Power Input 2-Pulse Input Mode 1-Pulse Input ModeRotation Direction Input SignalPulse Input Signal CW Pulse Input SignalCCW Pulse Input SignalAll Windings Off Input Signal Resolution Select Input SignalON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFFElectromagnetic Brake Power InputONOFF ✽51 ✽ The minimum switching time to change rotation direction (1-pulse input mode), and switching time to change CW, CCW pulse (2-pulse input mode) 10 μs is shown as a response time of circuit.The actuator may need more time.2 ✽ Depends on load inertia, load torque and starting frequency.3 ✽ Never input a pulse signal immediately after switching the "All Windings Off" signal to the "photocoupler OFF" state. The actuator may not start.4 ✽ Wait at least five seconds before turning on the power again.5 ✽ Only for electromagnetic brake type。

DLW5BTN142SQ2L;DLW5BTN102SQ2L;DLW5BTN101SQ2L;DLW5BTN251SQ2L;DLW5BTN501SQ2L;中文规格书,Datasheet资料

DLW5BTN142SQ2L;DLW5BTN102SQ2L;DLW5BTN101SQ2L;DLW5BTN251SQ2L;DLW5BTN501SQ2L;中文规格书,Datasheet资料

Operating
(at 100MHz/20°C)
Temperature Range
DLW5BTN101SQ2p DLW5BTN251SQ2p DLW5BTN501SQ2p DLW5BTN102SQ2p DLW5BTN142SQ2p Number of Circuit: 1
100ohm (Typ.) 250ohm (Typ.) 500ohm (Typ.) 1000ohm (Typ.) 1400ohm (Typ.)
Noise Suppression Products/EMI Suppression Filters > Common Mode Choke Coil > Wire Wound Type for Large Current
Data Sheet
1
Common Mode Choke Coil Wire Wound Type for Large Current
2012.3.1
/
/
Noise Suppression Products/EMI Suppression Filters > Common Mode Choke Coil > Wire Wound Type for Large Current
0.5 min. (L) 5.0±0.3
0.45 min. (T) 2.35±0.15
1.3±0.3
1.7±0.3
(4) (3) 1.3±0.3 0.9±0.3
: Electrode (in mm)
c Impedance-Frequency Characteristics (Main Items)
10000 Common mode
Notice Solderability of Tin plating termination chip might be deteriorated when low temperature soldering profile where peak solder temperature is below the Tin melting point is used. Please confirm the solderability of Tin plating termination chip before use.

RSO-0505S;RSO-0505D;RSO-2412DZ;RSO-2405SZH3;RSO-243.3S;中文规格书,Datasheet资料

RSO-0505S;RSO-0505D;RSO-2412DZ;RSO-2405SZH3;RSO-243.3S;中文规格书,Datasheet资料

ECONOLINEDC/DC-Converterwith 3 year WarrantyRSO E-95REV:1/2011EN-60950-1 Certified EN-60601-1 CertifiedDescriptionHigh-power-density, an industrial temperature range of -40°C to +85°C and extra features like On-Off-control are just some of the characteristics of this converter, ideal for highly sophisticated industrial-designs. The RSO series is available with isolation of 2kV or 3kV by chosing option "/H2"or "/H3" in which case it is also ideal for medical applications which additionally require EN-60601-1 certification. The standard version offers 2:1 input voltage range, while the “Z” version features 4:1input voltage range, which includes an input voltage range covering both 5V and 12V supplies.1 WattSIP8 Isolated Single &Dual Output●2:1 and 4:1 Wide Input Voltage Ranges ●1kVDC, 2kVD or 3kVDC Isolation ●UL94V-0 Package Material●Certified for Medical Applications ●Continuous Short Circuit Protection ●Low Noise●No External Capacitor needed ●Efficiency to 83%FeaturesRegulated ConvertersSelection GuidePart NumberInput Rated Output Output Current Efficiency Max Voltage Range Voltage typ.CapacitiveSIP8(VDC)(VDC)(mA)(%)Load (1)RSO-xx3.3S* 4.5-9**, 9-18 3.330068-723300µF18-36, 36-7270RSO-xx05S* 4.5-9**, 9-18520073-751200µF18-36, 36-7275-78RSO-xx09S* 4.5-9**, 9-18911174-78680µF18-36, 36-7278-81RSO-xx12S* 4.5-9**, 9-18128375-80680µF18-36, 36-7280-83RSO-xx15S* 4.5-9**, 9-18156775-80680µF18-36, 36-7280-83RSO-xx3.3D* 4.5-9**, 9-18±3.3±15068-72±1500µF18-36, 36-7270RSO-xx05D* 4.5-9**, 9-18±5±10073-75±470µF18-36, 36-7275-76RSO-xx09D* 4.5-9**, 9-18±9±5674-78±470µF18-36, 36-7278RSO-xx12D* 4.5-9**, 9-18±12±4275-79±330µF18-36, 36-7279-80RSO-xx15D* 4.5-9**, 9-18±15±3475-79±330µF18-36, 36-7279-80RSO-xx3.3SZ*9-36 3.330068-703300µF18-7270RSO-xx05SZ* 4.5-18**, 9-36520073-781200µF18-7275RSO-xx09SZ* 4.5-18**, 9-36911175-81680µF18-7278RSO-xx12SZ* 4.5-18**, 9-36128377-83680µF18-7280RSO-xx15SZ* 4.5-18**, 9-36156778-83680µF18-7280RSO-xx3.3DZ*9-36±3.3±15070-74±1500µF18-7270RSO-xx05DZ* 4.5-18**, 9-36±5±10073-77±470µF18-7275RSO-xx09DZ* 4.5-18**, 9-36±9±5674-78±470µF18-7278RSO-xx12DZ* 4.5-18**, 9-36±12±4275-80±330µF18-7280RSO-xx15DZ* 4.5-18**, 9-36±15±3475-80±330µF18-7280No suffix is standard isolation (1kVDC) e.g, RSO-0505S*add suffix /H2 or /H3 for 2kVDC or 3kVDC isolation, e.g, RSO-0505S/H2, RSO-0505DZ/H3** derate to 75% if Vin<5V, 12V 4:1 input also requires an external 10µF input capacitor.Refer to Application NotesRoHS2002/95/EC6/6O u t p u t P o w e r (%)100602040Operating Temperature °C80Derating-Graph(Ambient T emperature)2:1Input 4:1Input (RS0-S/D) (RSO-SZ/DZ)xx = 4.5-9Vin = 05 xx = 4.5-18Vin = 12xx = 9-18Vin = 12 xx = 9-36Vin = 24 xx = 18-36Vin = 24 xx = 18-72Vin = 48xx = 36-72Vin = 48/E-96REV: 1/2011R S 0Input Voltage Range 2:1 and 4:1Output Voltage Accuracy ±2% typ.Line Voltage Regulation 2:1±0.2% max.4:1±0.5% max.Load Voltage Regulation 2:1±0.4% max.(10% to 100% full load)4:1±0.5% typ.Minimum Load0%Output Ripple and Noise (20MHz limited)50mVp-p max.Operating Frequency 2:1200kHz min. / 500kHz max.4:1100kHz min. / 800kHz max.Efficiency at Full Load See Selection GuideQuiescent Current RSO-05xxS_D, SZ_DZ 40mA typ.Nominal input Voltage RSO-12xxS_D32mA typ.(Standard, /H2 and /H3)RSO-24xxS_D, SZ_DZ 25mA typ.RSO-48xxS_D, SZ_DZ15mA typ.CTRL Pin drive current /see Notes)3mA typ, 6mA max.Quiescent Input Current when Converter is OFF 10mA max.Isolation Voltage Standard (tested for 1 second)1000VDC(rated for 1 minute)500VAC / 60Hz/H2 Version (tested for 1 second)2000VDC(rated for 1 minute)1000VAC / 60Hz/H3 Version (tested for 1 second)3000VDC(rated for 1 minute)1500VAC / 60HzIsolation Capacitance Standard 2:1 Single 10pF min. / 40pF typ. / 60pF max.Isolation Capacitance /H2 and /H32:1 Single 5pF min. / 30pF typ. / 60pF max.Isolation Capacitance Standard 2:1 Dual 120pF min. / 170pF typ. / 250pF max.Isolation Capacitance /H2 and /H32:1 Dual 5pF min. / 30pF typ. / 60pF max.Isolation Capacitance Standard 4:1 Single/Dual 200pF max.Isolation Capacitance /H2 and /H34:1 Single/Dual 30pF max.Isolation Resistance >1G Ωmin.Short Circuit ProtectionContinuousOperating Temperature Range (free air convection)-40°C to +85°C (see Graph)Storage Temperature Range -55°C to +125°CRelative Humidity 95% RH Package Weight 4.7gPacking Quantity 22 pcs per TubeMTBF (+25°C)using MIL-HDBK 217F 1685 x 103 hours (+85°C)using MIL-HDBK 217F254 x 103 hoursSpecifications (Core Operating Area)measured at T A = 25°C, nominal input voltage, full load and after warm-up time unless otherwise specifiedTypical ApplicationE f f i c i e n c y %100040%0%100%40Efficiency / Load 60%80%20%206080Total Output current (%)RSO-24xxS}Detailed Information seeApplication Notes chapter "MTBF"-Vin-Vout+Vout+VinE f f i c i e n c y %100040%0%100%40Efficiency / Load 60%80%20%206080Total Output current (%)RSO-1205SZ/RSO E-97REV:1/20113rd angleprojection8 PIN SIP PackageXX.X ± 0.5 mm XX.XX ± 0.25 mmPin 8 (NC*)This pin is used internally and must have no external connection.Pin 5 (NC)Not connected internally.Pin 3 (CTRL)This pin provides an Off function which puts the converter into a low power mode. When the pin is ‘high’ the converter is OFF and when the pin is high ‘Z’ the converter is ON. There is no allowed low state for this pin.Package Style and Pinning (mm)Single Output Recommended Footprint DetailsPin Connections Pin #SingleDual1 –Vin –Vin2 +Vin +Vin 3CTRL CTRL 5NC NC 6+Vout +Vout7 –Vout C om8NC*–VoutNC = No ConnectionNC* = NC, but no external Connection allowed.CTRL Examples+VoutCtrlTTL Remote CTRL CircuitVoltage to be applied via a limiting resistor with a recom-mended value of 1K for RSO-05xx; 3.3K for RSO-12xx;4.7K for RSO-24xx and 10K for RSO-48xx.Control Pin Input Current: 10mA Voltage Set Point Accuracy with external input/outputcapacitors refer to typ. ± 1%recommended test circuit: max. ±2%Control Pin (CTRL) Input Current, control voltage applied via 1K resistor,output voltage must typ. 3mA reduce to 0V: max. 6mA+VoutIsolated Remote CTRL CircuitNotes Note 1Maximum capacitive load is defined as the capacitive load that will allow start up in under 1 second without damage to the converterCertifications EN General Safety Report: IL-R7109EN60950-1:2001 + A11:2004EN Medical SafetyReport: PS071001601EN60601-1:1990 + A11:1996/分销商库存信息:RECOM-POWERRSO-0505S RSO-0505D RSO-2412DZ RSO-2405SZ/H3RSO-243.3S RSO-1212S RSO-2412D RSO-2415D RSO-0505S/H2 RSO-2405SZ/H2RSO-2405DZ RSO-0505S/H3 RSO-2412SZ/H3RSO-1205DZ RSO-1212DZ RSO-2415DZ/H3RSO-2412DZ/H3RSO-4812SZ/H3 RSO-4805SZ/H3RSO-4812DZ/H3RSO-4815DZ/H3 RSO-2409S RSO-1209S RSO-1215S RSO-123.3S RSO-2415S RSO-2412S RSO-2405S RSO-0509S RSO-0512S RSO-053.3S RSO-2409SZ RSO-2412SZ RSO-2415SZ RSO-243.3SZ RSO-4805S RSO-4809S RSO-4812S RSO-4815S RSO-483.3S RSO-1205S RSO-0509D RSO-0509S/H2RSO-0512D RSO-0512S/H2 RSO-0515D RSO-0515S/H2RSO-053.3D RSO-053.3S/H2RSO-2409DZ RSO-2409SZ/H2 RSO-2412SZ/H2RSO-2415DZ RSO-2415SZ/H2 RSO-243.3DZ RSO-243.3SZ/H2RSO-1205S/H3 RSO-1209S/H3RSO-1212S/H3RSO-1215S/H3 RSO-123.3S/H3RSO-2405S/H2RSO-2409S/H2 RSO-2412S/H2RSO-2415S/H2RSO-243.3S/H2 RSO-2405D RSO-2409D RSO-243.3D RSO-2405D/H2RSO-2409D/H2RSO-2412D/H2 RSO-2415D/H2RSO-243.3D/H2RSO-1205S/H2 RSO-1209S/H2RSO-1212S/H2RSO-1215S/H2 RSO-123.3S/H2RSO-1205D RSO-1209D RSO-1212D RSO-1215D RSO-123.3D RSO-0515S RSO-2405SZ RSO-1209SZ RSO-1215SZ RSO-123.3SZ RSO-0509S/H3 RSO-0512S/H3RSO-0515S/H3RSO-053.3S/H3 RSO-1205D/H2RSO-1209D/H2RSO-1212D/H2 RSO-1215D/H2RSO-123.3D/H2RSO-2409SZ/H3 RSO-2415SZ/H3RSO-243.3SZ/H3RSO-1205SZ/H2 RSO-1209DZ RSO-1209SZ/H2RSO-1212SZ/H2 RSO-1215DZ RSO-1215SZ/H2RSO-123.3DZ RSO-123.3SZ/H2RSO-4805SZ RSO-4809SZ RSO-4812SZ RSO-4815SZ RSO-483.3SZ RSO-2409S/H3RSO-2412S/H3RSO-2415S/H3 RSO-243.3S/H3RSO-2405D/H3RSO-2409D/H3 RSO-2412D/H3RSO-2415D/H3RSO-243.3D/H3 RSO-4805D RSO-4805S/H2RSO-4809D RSO-4809S/H2RSO-4812D RSO-4812S/H2 RSO-4815D RSO-4815S/H2RSO-483.3D。

费斯托纤维光纤单元SOE4产品目录说明书

费斯托纤维光纤单元SOE4产品目录说明书

Fibre-optic units SOE4Fibre-optic units SOE4Characteristics and product range overview• High precision fibre-optic units• Switching frequencies of up to 8000 Hz• Working ranges of up to 2000 mm• Variants with LED display, switching and analogue outputs• Setting via teach-in• Comprehensive range of light guidesSOE4-FO-L-... with LED SOE4-FO-D-... with LED displayProduct combination SOE4, SVE4, SDE32d Internet: /catalogue/...Subject to change – 2022/07Fibre-optic units SOE4 Peripherals overview3 2022/07 – Subject to change d Internet: /catalogue/...Fibre-optic units SOE4Type codes4d Internet: /catalogue/...Subject to change – 2022/07Fibre-optic units SOE4 Data sheet5 2022/07 – Subject to change d Internet: /catalogue/...Fibre-optic units SOE4Data sheet1)For information about the area of use, see the EC declaration of conformity at: /sp d Certificates.If the devices are subject to usage restrictions in residential, commercial or light-industrial environments, further measures for the reduction of the emitted interference may be necessary.2)Corrosion resistance class CRC 4 to Festo standard FN 940070Particularly high corrosion stress. Outdoor exposure under extreme corrosive conditions. Parts exposed to aggressive media, e.g. in the chemical or food industries. Such applications may need to be safeguarded by special tests(dalso FN 940082), using appropriate media.6d Internet: /catalogue/...Subject to change – 2022/07Fibre-optic units SOE4 Accessories – Ordering data1) With SOE4-FO-L and SOE4-FO-D in standard modeAn attempt was made to obtain a signal at 10% of the working range using a copper wire. The smallest wire diameter that was still detected corresponds to the diameter of the smallest detectable object.2)1) With SOE4-FO-L and SOE4-FO-D in standard mode2) An attempt was made to obtain a signal at 10% of the working range using a copper wire. The smallest wire diameter that was still detected corresponds to the diameter of the smallest detectable object.1) An adapter SASA is included in the scope of delivery for light guides with a light guide diameter of < 2.2 mm7 2022/07 – Subject to change d Internet: /catalogue/...Fibre-optic units SOE4Accessories – Ordering data1) With SOE4-FO-L and SOE4-FO-D in standard modeAn attempt was made to obtain a signal at 10% of the working range using a copper wire. The smallest wire diameter that was still detected corresponds to the diameter of the smallest detectable object.2)1) With SOE4-FO-L and SOE4-FO-D in standard mode2) An attempt was made to obtain a signal at 10% of the working range using a copper wire. The smallest wire diameter that was still detected corresponds to the diameter of the smallest detectable object.1) An adapter SASA is included in the scope of delivery for light guides with a light guide diameter of < 2.2 mm8d Internet: /catalogue/...Subject to change – 2022/07Fibre-optic units SOE4 Accessories – Ordering data1) Dependent on the light guide2)Light spot diameter 0.7 mm at a distance of 10 mm, dependent on the light guideH-Any light guide not listed here is not suitable for combining with an adapterlens.1) Bending tool for light guide sleeves9 2022/07 – Subject to change d Internet: /catalogue/...Fibre-optic units SOE4Accessories – Ordering data10d Internet: /catalogue/...Subject to change – 2022/07Festo - Your Partner in AutomationConnect with us/socialmedia 1Festo Inc.2Festo Pneumatic 3Festo Corporation 4Regional Service Center 5300 Explorer DriveMississauga, ON L4W 5G4CanadaAv. Ceylán 3,Col. Tequesquináhuac 54020 Tlalnepantla, Estado de México1377 Motor Parkway Suite 310Islandia, NY 117497777 Columbia Road Mason, OH 45040Festo Customer Interaction CenterTel:187****3786Fax:187****3786Email:*****************************Multinational Contact Center 01 800 337 8669***********************Festo Customer Interaction Center180****3786180****3786*****************************S u b j e c t t o c h a n g e。

青智电压电流表ZW160X系列

青智电压电流表ZW160X系列

同要求执行。 3. 产品外观、按键及显示窗口 3.1 ZW1600 系列电量表外观相同、操作按键相同、数据显示窗 口相同,请参照图 2 说明:
产品标签 仪表尾
指示灯
显示窗口 单位 产品型号 增加 按键 设置 按键
图2 3.2 ZW1603 仪表实物图示
右移 按键
ZW1600 系列电量表显示数据位置在仪表面板,接线端子位 置在仪表尾,产品标签中记录该仪表的重要信息。 3.3 显示窗口为 4 位 LED 显示。 与右侧指示灯组合完成数据显示。 3.4 操作按键共 3 个。 参照第 5 章内容可以完成所有基本参数的 设置。 3.5 面板符号说明:ZW1600 系列电量表的面板可能使用以下符 号,请参照使用。 表 3 字符含义
4.4.6 继电器报警输出的控制: 4.4.6.1 报警继电器的输出控制过程请参照图。
图4
越限报警判定
4.4.6.2 如果当前测试数据大于报警上限, 则上限报警继电器输 出动作。同时,数码管上笔画闪烁。 4.4.6.3 如果当前测试数据小于报警下限, 则下限报警继电器输 出动作。同时,数码管下笔画闪烁。 ★ 越限判定的说明: a) 当前测试数据大于报警上限, 或当前测试数据小于报警下限; b) 如果当前测试数据为 0 时需要报警,请参照 5.2.1 执行。 c) 报警延迟时间 dELy(δT)期间,所有测试数据一直处于越上 限或者越下限状态。 当上述条件全部满足时,继电器报警输出动作。 5. 基本参数设置 5.1 字符对照表 本系列仪表采用 7 段 LED 显示所有字符与数据, 常用数字与字符显示对照如下图所示: 5.1.1 下图 10 字符为所有阿拉伯数字显示示例。 第 7 页
93常见问题处理所有led闪烁不显示工作电源异常检查电源电压是否正显示乱码附近有强干扰远离强烈的干扰环境程序异常退回公司有底数电源干扰或环境干扰远离强烈的干扰环境工作电源与其它设备电源分离数据跳动无法信号干扰或信号谐波处理强烈的干扰信号处理信号谐波或选用其它仪表数据异常ptct设置异常检查参数设置重新设置参数报警报警功能异常参数设置不适宜重新设置参数参照521执行rs485转换器及连线检查转换器连线位置参照73检查信号电平通讯不成功通讯参数设置不正确检查仪表与计算机的通讯参数的设置参照光盘内容检查接收的数据经常出错硬件线路接触不良通讯线路环境干扰检查硬件线路连接的可靠性采用带屏蔽的通讯线缆降低环境干扰

海德福斯插装阀型号表

海德福斯插装阀型号表

4305710
4303510 4303910 4303710 4304110 G Plating
4305712 4307112 4305882 4305892 4305612 4305412 4303512 4303912 4303712 4304112
4305724 4307124 4305884 4305894 4305624 4305424 4303524 4303924 4303724 4304124
-12TD
7155010
M J Y Neutral Sensor SV12-P20
4301891 4305710
G Plating430310 4303910 4303710 4304110
4301612 4301862 4301892 4305712 4307112 4305882 4305892 4305612 4305412 4303512 4303912 4303712 4304112
6356010
4301891 4305710
G Plating
4303510 4303910 4303710 4304110
阀块型号 订货号
-2B -3B -4T -6T -8T -3BD -6TD -8TD
7028620 7028630 7024640 7024660 7024680 7151050 7151010 7151020
4301871 4305110
G Plating
4303410 4303810 4303610 4304010 6301010 6302010
V Seals P Seals
6351010 6352010
6351012 6355012 6352012 6359412 6356012 4301612 4301862 4301892 4305712 4307112 4305882 4305892 4305612 4305412 4303512 4303912 4303712 4304112

QSS-016-01-L-D-DP-A;中文规格书,Datasheet资料

QSS-016-01-L-D-DP-A;中文规格书,Datasheet资料

.625 15.88 REF
.006 0.15 REF
= NOT ENGINEERING APPROVED
C
.055 1.40
"A"
QSS-25-01-D-XX
.135 3.43 REF
.1430 - .001 3.632 - 0.03 (SEE NOTE 5, 6 & 8)
+.003
+0.08 C
.070 1.77 REF
DETAIL 'A' SCALE 5 : 1
PROPRIETARY NOTE
.007 0.18 REF
UNLESS OTHERWISE SPECIFIED, DIMENSIONS ARE IN INCHES. TOLERANCES ARE:
DECIMALS
.XX: .01[.3] .XXX: .005[.13] .XXXX: .0020[.05]
.325 8.26
.148 3.76
-GP: GUIDE POST OPTION (32 POS MAX FOR TAPE & REEL OFFERING) "A" REF
C
FIG 4
.102 2.59 REF
"B" REF
.206 5.24
.140 3.56 THRU REF
PROPRIETARY NOTE
REVISION W
DO NOT SCALE FROM THIS PRINT
ASO ONLY (APPLICATION SPECIFIC ORDER)
QSS-XXX-XX-XXX-D-DP-XXX
No OF POSITIONS -016, -032, -048, *-064,*-080 (PER ROW) * SEE NOTES 10 & 11 LEAD STYLE -01: .1430[3.632] PLATING SPECIFICATION -F: FLASH SELECTIVE GOLD WITH MATTE TIN TAILS (USE C-126-21-F & T-1G2-01-F) (SEE NOTES 7 & 9) -L: LIGHT SELECTIVE GOLD WITH MATTE TIN TAILS (USE C-126-21-L & T-1G2-01-L) (SEE NOTE 9) -H: HEAVY GOLD (USE C-126-21-H & T-1G2-01-G) (SEE NOTE 9) -STL: LIGHT SELECTIVE GOLD WITH TIN LEAD TAILS (USE C-126-21-STL & T-1G2-01-STL) (SEE NOTE 9) -FTL: FLASH SELECTIVE GOLD WITH TIN LEAD TAILS (USE C-126-21-FTL & T-1G2-01-FTL) (SEE NOTE 9) C-126-21-XXX 'A' OPTION -A: ALIGNMENT PINS (SEE FIG. 2, SHEET 2) (USE QSS-25-01-D-XX-A) -LC: LOCKING CLIPS (SEE FIG. 1)(USE LC-08-TM-01) (SEE NOTE 12) -K: POLYIMIDE FILM PAD (SEE FIG. 3, SHEET 2) (USE K-850-650) -TR: TAPE & REEL (48 POS MAX) (32 POS MAX FOR -GP OPTION) -GP: GUIDE POSTS (SEE FIG. 4, SHEET 2) (USE QSS-25-01-D-XX-X-GP) -LS2: LOCKING SCREW (USE QSS-25-01-D-XX-LS2) (SEE FIG. 5, SHEET 3) ( FOR MATING WITH QTS-...-RA..LS2) DIFFERENTIAL PAIRS ROW SPECIFICATION -D: DOUBLE (USE QSS-25-01-D-XX) [SEE TABLE 2]

CY3663;中文规格书,Datasheet资料

CY3663;中文规格书,Datasheet资料

Building an EZ-Host/OTG Project From Start to FinishIntroductionThe CY3663 EZ-Host and EZ-OTG Development Kit contains a full set of standard GNU-based tools. These tools have been ported to our CY16 processor-based EZ-Host and EZ-OTG products. This application note describes how to build a simple stand-alone project with these tools that will run in either debug mode or out of an EEPROM. This document is intended to help those less familiar with the GNU devel-opment environment. It is not intended to be a complete tools reference, but rather a quick example to get you familiar with the tools.The example in this document is presented from start to finish and is all-inclusive. To make things easier to follow, this example does not have any dependencies on ROM BIOS code (except for initialization), Frameworks, Makefiles, or any other presupplied code that the design examples in our CY3663 development kit use. It is strongly recommended that production designs do not start from scratch as this example does. Instead, production designs should rely heavily on our BIOS and Frameworks code. For more information on devel-oping around the BIOS and Frameworks, please see the book USB Multi-Role Device Design by Example included in the CY3663 development kit.Required Tools ComponentsBelow is a list of tools that are required to build and run the example in this application note (or any other project, for that matter). All of the required tools listed below, including many other tools, are installed automatically when the CY3663 CD is installed. In fact, these tools have many environmental dependencies in order to work properly that are also automat-ically handled by the install, so please properly install the CY3663 CD before attempting to build an EZ-Host or EZ-OTG project. For complete documentation on all utilities below, including standard RedHat GNUPro documentation, please refer to the CY3663 documentation folder.•cy16-elf-gcc: Port of standard GNU GCC compiler•cy16-elf-as: Port of standard GNU GAS assembler•cy16-elf-ld: Port of standard GNU LD linker•cy16-elf-objdump: Port of standard GNU objdump•cy16-elf-objcopy: Port of standard GNU objcopy•cy16-elf-gdb: Port of standard GNU GDB debugger •cy16-elf-libremote: Port of standard GNU libremote •scanwrap: Cypress-developed utility•qtui2c: Cypress-developed utility•BASH_ENV.BAT: Cypress-developed batch file Buttons and Lights Example DescriptionTo properly understand how to use these tools, it is best to actually build a simple project. This application note uses the ever-popular Buttons and Lights as that example. Buttons and Lights is a very basic application so as to allow focus to remain on the tools, but at the same time presents a visual indication that the code is running. It should be noted that this is not the same Buttons and Lights example presented in the USB Multi-Role Device Design By Example book.The Buttons and Lights example presented here can run on either the EZ-Host or EZ-OTG stand-alone boards shipped with the CY3663 development kit. When this code is running, pressing the S5 button will turn ON LEDs D1, and D9:D7. When button S1 is pressed, these LEDs will turn off.The EZ-Host and EZ-OTG stand-alone boards indirectly memory map these LEDs and buttons through the U8 CPLD. Therefore, this example bit bangs a standard memory interface to RD/WR the CPLD. A complete description of these boards, including the CPLD indirect memory map, is included in the CY3663Hardware Users Manual included with the CY3663 kit.Steps for building the Buttons and Lights example are covered in later sections of this application note.Buttons and Lights Project FilesBelow is a short list of the files that make up this Buttons and Lights example.•BAL.c•StartupNoBIOS.s or StartupWithBIOS.s•cy7c67200_300.h•BAL.ldBAL.c File DescriptionThis file contains a simple main routine along with functions to read and write the CPLD. The main routine is just a “while(1)” loop that looks for button presses and illuminates the LEDs as appropriate.StartupNoBIOS.s/StartupWithBIOS.s File Description The default GNU start-up code is generally contained within crt0.s. The crt0.s file contains a lot of code overhead in functions that are rarely used for embedded applications. Therefore, we will supply our own start-up code in a.s file and instruct the compiler to use it instead of the default crt0.s file. This will save quite a bit of code space. For more information on minimizing code space by not using crt0.s, please see the OTG-Host Boot Code Design white paper included in the CY3663 kit.The most important portion of our start-up file is the _start routine. This routine is intended to be run before main and is loaded at the ORG location specified in the BAL.ld file. In its simplest form, the _start code is just a jump to main. Code at this location or the start of main will generally determine how the task or main function interacts with the BIOS.BAL.ld File DescriptionBAL.ld is a modified version of the default linker script. The linker script contains commands for the linker to execute and describes how the sections in the input files should map into the output file. For example, the linker script tells where the base address for code should reside.A default linker script can be automatically generated by typing “cy16-elf-ld --verbose > BAL.ld.” This command will generate a default linker script file called BAL.ld that contains everything our project needs and more. There are a few simple changes that must be made to this default script for our project (and other EZ-Host/OTG projects). These small changes are listed below.1.Change the base address for our code to start at. This canbe done by changing the “. =” statement followingSECTIONS to 0x1000. The 0x1000 location ensures that we allow enough room for the GDB stub to be loaded when in debug mode.2.Anything that is not code in the file must be commentedout, because otherwise a parse error will occur whenlinking. This includes the GNU version information in the top of the default file and the “=======” lines at the top and bottom of the file.Buttons and Lights Without BIOSThe StartupNoBIOS.s file never returns control of the processor to the BIOS. The BIOS first executes some initial-ization routines such as setting up the stack and loading the program. Then program execution begins at “_start” as defined in the StartupNoBIOS.s file. StartupNoBIOS.s contains a jump to main at “_start” where main is just a “while(1)” loop that never returns.Buttons and Lights With BIOSOur Buttons and Lights example does not require the BIOS to be running in the background (except initialization). However, there are still some debug benefits to having the BIOS running. When the BIOS is running, we can use some simple Cypress-developed utility programs such as qtsdump/qtudump to dump memory and qtsarena/qtuarena to give memory usage information.If BIOS is not running in the background, the BIOS IDLE chain will not to execute. This means BIOS will never look for any SCAN vectors on the UART or USB port. It is a requirement for the BIOS to execute and look for SCAN vectors over the UART or USB in order to use qtuload/qtsload or qtuarena/qtsarena (see Binary Utilities Reference for more information on these utilities).There are many different ways to design our Buttons and Lights application to run concurrently with BIOS running in the background. Most of the suggested ways such as adding the Buttons and Lights task into the IDLE chain are described in USB Multi-Role Device Design by Example. We execute the BIOS IDLE Task in a periodic Timer0 Interrupt.To allow Timer0 to properly interrupt at a given interval and vector to the proper ISR code, StartupWithBIOS.s makes the appropriate initialization in “_start” before returning to BIOS to complete initialization. In this example, we return to BIOS instead of jumping directly to main. This is required so that BIOS will finish initialization of the UART and USB. Instead of jumping to main, our start-up code replaces the IDLER ISR vector address with main. The IDLER ISR (now main) is automatically called by BIOS upon finishing initialization. Building the Example for Running with the Debugger (GDB)If a program is built to run with the debugger, then the build process is different from code being built to run out of an EEPROM.Running code with GDB will allow for breakpoints, single stepping, and other standard debug activities, in addition to running Insight, the graphical user interface for GDB. To run code with GDB, an Executable Linker Format (ELF) must be generated. This is the default format of the GCC compiler and is file-extension-independent. The only requirement is that debug symbols need to be turned on. The following command line instruction will generate a proper ELF file for use with GDB. It is assumed that the CY3663 CD has been installed and that BASH_ENV.BAT has been invoked to create a bash shell environment. In addition, change the working directory to that containing the Buttons and Lights files. Full details of how to actually run the debugger are listed in both the CY16.PDF and the USB Multi-Role Device Design by Example book.It should be noted that even though StartupNoBIOS.s is used, the GDB stub that is loaded for debug will still execute the BIOS IDLE chain. This is required to allow debug communi-cation over USB or the UART.[cy]$ cy16-elf-gcc -nostartfiles -g -TBAL.ld StartupNoBIOS.s BAL.c -o BAL•The above command will generate a file called “BAL” in the ELF format. This file can then be used as an input when invoking GDB.•The “-nostartfiles” parameter tells the compiler/linker not to use the default start-up code. Instead, we will supplyStartupWithBIOS.s as the start-up code to be used.•The “-g” parameter instructs the compiler to turn on debug symbols.•The “-T” parameter tells the linker to use our supplied linker script instead of the default.•The “-o” parameter is followed by the output file name. Building the Example for Running out of the EEPROMThe build process is slightly more involved to create an image that is ready to run out of an EEPROM. All of the steps are listed below and can be entered at the command line in a bash shell, or included in a script or Makefile. Since this project is so small, a Makefile is not needed. For a Makefileexample, please see the CY3663 design examples that use Makefiles that contain similar calls as those listed below. Below is a list of the steps required to build an EERPOM-ready image.It should be noted that StartupNoBIOS is used as the default startup file in this example but StartupWithBIOS may be used without any additional changes.1.Open a bash shell.Run BASH_ENV.bat by clicking on the shortcut created under Programs/Cypress/OTG-Host in the start menu after the CY3663 CD has been installed. Once a Bash shell is opened, a “[cy]$” prompt will be displayed.In addition, change the working directory to that which contains the Buttons and Lights files.2.Assemble the start-up file into a linkable object file.[cy]$ cy16-elf-as StartupNoBIOS.s -o StartupNoBIOS.o.pile the .C file into a linkable object file (ELF file).[cy]$ cy16-elf-gcc -c -nostartfiles BAL.c -o BAL.o.4.Link both of the object files.[cy]$ cy16-elf-ld -TBAL.ld StartupNoBIOS.o BAL.o -o BAL.5.Obtain a Listing file (optional).[cy]$ cy16-elf-objdump -D -z -t --source BAL > BAL.lst. 6.Convert the ELF file format to a Binary file format.[cy]$ cy16-elf-objcopy -O binary BAL BAL.bin.7.Add appropriate SCAN signatures to the Binary file.[cy]$ scanwrap BAL.bin BAL_Scan.bin 0x00001000.8.Download the Binary file to the EEROM.[cy]$ qtui2c BAL_Scan.bin -f.Below is a detailed description of each of the above command line entries.1.BASH_ENV.bat.•BASH_ENV.bat will set up all of the required environment variables and then invoke a bash shell.2.cy16-elf-as -StartupNoBIOS.s -o StartupNoBIOS.o •The “-o” parameter specifies the desired output file name.3.cy16-elf-gcc -c -nostartfiles BAL.c -o BAL.o•The “-c” parameter causes a compile/assemble without running the linker.•The “-nostartfiles” parameter tells the compiler/linker not to use the default start-up code.•The “-o” parameter specifies the desired output file name.4.cy16-elf-ld -TBAL.ld StartupNoBIOS.o BAL.o -o BAL •The “-T” parameter tells the linker to use our supplied linker script instead of the default.•The “-o” parameter specifies the desired output file name.5.cy16-elf-objdump -D -z -t --source BAL > BAL.lst.•This step is not required, but is nice to have.•The “-D” parameter causes the contents of all sections to be disassembled.•The “-z” parameter causes blocks of zeros to be disas-sembled.•The “-t” parameter prints the symbols table entries of the file.•The “--source” parameter displays source code intermixed with disassembly, if possible.•The “>” parameter directs the output to a file with name provided after the “>” parameter.6.cy16-elf-objcopy -O binary BAL BAL.bin.•The “-O” parameter writes an output file in the formatspecified after the “-O” parameter. In this case, we specify the “binary” format.7.scanwrap BAL.bin BAL_Scan.bin 0x00001000.•The address parameter is the base address where the program is to be loaded. This is the same address that was added into to *.ld file and needs to be the address where the _start routine in the start-up file resides.8.qtui2c BAL_Scan.bin -f.•Please see the Binary Utilities Reference document for detailed instructions on how to run this utility. Basically, the EZ-Host or EZ-OTG mezzanine card should have all DIP switches OFF and then the board should be powered with the USB cable plugged into peripheral port 2A. Next, the DIP switches should be set to select the appropriateEEPROM to download code to. An example is to setswitches [6:3] ON and [2:1] OFF (0bXX111100) whichselects EEPROM # 4. Finally, qtui2c should be run followed by a board reset. At this point the Buttons and Lights code should be running.•The “-f” parameter specifies that the EEPROM is 4K-64K.If the EERPOM is 256-2K, no “-f” parameter is required.ReferencesAll documents listed below that were referenced throughout this application note can be found in the CY3663 Devel-opment Kit CD image.B Multi-Role Device Design By Example2.Binary Utilities Reference.pdf3.CY3663 Hardware Users Manual.pdf4.Frameworks Reference Manual.pdf5.CY16.pdf6.GNUPro Toolkit Documentation (several documents)ConclusionOnce you have built and run the Buttons and Lights example presented in this application note, you should have a basic understanding of how to get up and running with the CY16 toolset. The next step is to start learning about the EZ-Host and EZ-OTG BIOS and Frameworks. These two items will provide a very comprehensive foundation on which to build your application code. In addition, Frameworks relies heavily on Makefiles that in turn use some of the basic commands discussed throughout this document.Source CodeBAL.c#include "cy7c67200_300.h"typedef unsigned short uint16;#define WRITE_REGISTER(address, value) (*(volatile uint16 *) (address)) = ( (uint16) (value) )#define READ_REGISTER(address) (*(volatile uint16 *) (address))#define INPLACE_OR(address, value) __asm( "or [%0], %1" : : "p" ((address)), "g" ((value)) )#define INPLACE_AND(address, value) __asm( "and [%0], %1" : : "p" ((address)), "g" ((value)) )void writeCPLDADX(uint16 address){INPLACE_AND(GPIO1_OUT_DATA_REG, ~0x0008); /* A0 = 0 */INPLACE_AND(GPIO1_OUT_DATA_REG, ~0x0020); /* nCS = 0 */INPLACE_AND(GPIO1_OUT_DATA_REG, ~0x0040); /* nWR = 0 */INPLACE_OR(GPIO0_DIR_REG, 0x00FF); /*Write Address*/WRITE_REGISTER(GPIO0_OUT_DATA_REG, address);INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0040); /* nWR = 1 */INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0020); /* nCS = 1 */INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0008); /* A0 = 1 */}void writeCPLDDATA(uint16 data){INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0008); /* A0 = 1 */INPLACE_AND(GPIO1_OUT_DATA_REG,~0x0020); /* nCS = 0 */INPLACE_AND(GPIO1_OUT_DATA_REG, ~0x0040); /* nWR = 0 */INPLACE_OR(GPIO0_DIR_REG, 0x00FF); /*Write Address*/WRITE_REGISTER(GPIO0_OUT_DATA_REG, data);INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0040); /* nWR = 1 */INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0020); /* nCS = 1 */INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0008); /* A0 = 1 */}int readCPLDDATA(){uint16 data;INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0008); /* A0 = 1 */INPLACE_AND(GPIO1_OUT_DATA_REG, ~0x0020); /* nCS = 0 */INPLACE_AND(GPIO1_OUT_DATA_REG, ~0x0080); /* nRD = 0 */INPLACE_AND(GPIO0_DIR_REG, 0xFF00); /*Write Address*/data = (READ_REGISTER(GPIO0_IN_DATA_REG) & 0x00FF);INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0080); /* nWR = 1 */INPLACE_OR(GPIO1_OUT_DATA_REG, 0x0020); /* nCS = 1 */return data;}void writeCPLD(int address, int data){writeCPLDADX(address);writeCPLDDATA(data);}int readCPLD(int address){writeCPLDADX(address);return readCPLDDATA();}int main(){uint16 button_read = 0;INPLACE_AND(UART_CTL_REG, 0xFE); /* Disable UART to free up GPIO 6 & 7 on EZ-OTG for CPLD*/ INPLACE_OR(GPIO0_OUT_DATA_REG, 0x00FF); /* Data Port */INPLACE_OR(GPIO1_OUT_DATA_REG, 0x00E8); /* A0 = nCS = nRD = nWR = 1 */INPLACE_OR(GPIO0_DIR_REG, 0x00FF);INPLACE_OR(GPIO1_DIR_REG, 0x00FF);© Cypress Semiconductor Corporation, 2003. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use while(1) {button_read = readCPLD(0x0000); /* Read Buttons */if((button_read & 0x01) == 0) { /* If Button S1 (PB_UP) is pressed, turn LEDs OFF */ writeCPLD(0x7, 0xFF);writeCPLD(0x1, 0xFF); /* Clear Button S1 Status */ }if((button_read & 0x08) == 0) { /* If Button S5 (PB_DN) is pressed, turn LEDs ON */ writeCPLD(0x7, 0x00);writeCPLD(0x4, 0xFF); /* Clear Button S5 Status */ } } }}All product and company names mentioned in this document are the trademarks of their respective holders.Approved AN048 8/20/03 kkvStartupNoBIOS.c; File: startup.s; Declare the main function. .global main .section .text.global _start _start:; Jump to the main function. jmp main; End of file: startup.sStartupWithBIOS.c; File: startup.s; Declare the main function. .global main .section .text.global _start _start:; Jump the main function. ; jmp main; Replace TMR0 ISR with tmr0_isr mov [0], tmr0_isr; Enable TMR0 INTor [0xC00e], 0x0001; Replace IDLER ISR with main.Now BIOS IDLE chain is only called in TMR0 ISR. mov [(71*2)],main ret; int 70 enables the IDLE_INT. This allows bios to execute periodically ; since main never returns. Now we can use debug USB port and UART.tmr0_isr: ; TMR0 ISR, now calls BIOS IDLE push [0xc000] ; Push Flags Register int 73 ; PUSHALL_INTint 70 ; IDLE_INT (will check UART and USB for Scan signitures) int 74 ; POPALL_INTmov [0xc010], 10000 ; Load TMR0 so that it will expire every 10ms pop [0xc000] ; Pop Flags Register sti ret; End of file: startup.s分销商库存信息: CYPRESS-SEMICONDUCTOR CY3663。

德欣集团热保护压敏电阻产品规格说明书

德欣集团热保护压敏电阻产品规格说明书

SPD Series Specifications德欣集团深圳市德欣电器有限公司SPD全系列规格书产品名称:热保护压敏电阻型号规格: COV25D-COV60D(201K~162K)日期: 2019年6月30日本集团公司旗下总生产面积 60000 平米以上,主营产品压敏芯片及压敏电阻器,电压范围从15V--1800V,产品直径从3mm--80mm均能全系列生产,年产能压敏芯片12亿只以上,压敏电阻器成品8亿只以上,综合年产能20亿只以上,为国内压敏芯片,压敏电阻器产能最大生产商之一,其中(15V-82V)低压压敏芯片,产能,产量,市场占有率位居世界第一。

本公司旗下所生产的全系列产品均有完善的认证体系:具备CQC,UL,CSA,VDE,SGS等多国认证,产品畅销多个国家,全员推行并遵守ISO9001质量管理体系,ISO14001环境管理体系,OHSAS18001职业健康安全管理体系,拥有国家发明专利6项,实用新型专利7项,为高新技术企业。

华北生产基地:山东省德州市平原县经济开发区德欣电器高新科技产业园华南生产基地:惠州市惠阳区秋长将军路合美兴工业园西南生产基地:四川省南充市阆中市七里汉王祠路小微企业孵化园 3 号联系人:林茂发移动电话:136****5669固定电话:*************官方网站:SPD Series Specifications SPD 系列规格说明 Explanation of Part Numbers 型号说明:-Specifications 规格说明:□Varistor Voltage Range压敏电阻动作电压范围 200V~1600V(dc) □Peak Current For 8/20us Current Wave在8/20us电流波形最大通流量 20KA~70KA □Energy Range For 10/1000us Current Wave在10/1000us电流波形的能量范围 250J~2500J □Storage Temperature Range储存温度范围 -40℃~85℃℃ □Operation Ambient Temperature Range作业环境温度范围储存温度范围 -40℃~85℃ □Typical Response Time反应时间 〈25ns □Insulation Resistance绝缘电阻 ≧1000MΩApplications 应用领导域:▇ Protection Of Communication Against Lightning 通信电源防雷保护▇ Industrial Power Distributors 工业配电柜▇ Railway Highway and Air-signal 铁路、公路、航空信号系统▇ Building Power Distributors Input Against Lightning 大楼供电电源入端防雷COV D KC Common Code 产品类别代码DE xin COV Metal Oxide Varistor Surg e Absorber 德欣COV 金属氧化物压敏电阻器 25 32,.34 53 60ChipDiameter 芯片直径 Φ25mm Φ32mm S34mm Φ53mm Φ60mmChip .Shape芯片形状Varistor Voltage 压敏电阻动作电压例如Examples: 47 × 100 = 47 V 47 × 101 = 470 V 11 × 102 = 1100 V47471112Tolerance 误差 K .±10%L .±15% M .±20% OrCustomer Special Requirem entD-Disc 圆形B-Block 塑胶方S-Square 方形Enclosure 包封材质C:Epoxy 环氧树脂 E:Plastic...Case 注塑外壳Tab Style 引出端形状P Planet 平板型 L L Shape L 型 C Radial 圆型L•25D Specifiation*32D Specification(表一:基本尺寸表)(表二:厚度尺寸表) (图1:32D系列简图)SPD Series Specifications *40D Specification(表一:基本尺寸表)(表二:厚度尺寸表) (图1:40D系列简图)*53D Specification(表一:基本尺寸表)(表二:厚度尺寸表) (图1:53D系列简图)*34S Specification(表一:基本尺寸表)(表二:厚度尺寸表) (图1:34S系列简图)*34B (BLOCK VARISTOR) Specification注:未注明公差±0.5mm(图1:34B系列简图)*60B (BLOCK VARISTOR) Specification注:未注明公差±0.5mm(图1:60B系列简图)V-I Curve 电压电流特性曲线:第 21 页 SPD Series Specifications。

维纳尔总产品手册——广州士必德自动化设备有限公司

维纳尔总产品手册——广州士必德自动化设备有限公司
维纳尔产品手册
01005 D-固定式熔断器管座,E27/25A/500V,卡接固定,单相 01006 D-固定式熔断器管座,E33/63A/690V,卡接固定,单相 01008 PROFIL 连接夹,三T型,64 x 46,连接500-1260mm2 01009 底槽,230 x 1100,3线 01010 底槽,230 x 700,3线 01011 底槽,290 x 1100,3线带电缆槽或4线 01012 底槽,290 x 700,3线带电缆槽或4线 01017 边框支撑架,用于01 495和01 485 01019 末端盖,用于01 017和01 495的组合体,宽度230mm 01020 末端盖,用于01 017和01 495或01 485的组合体,宽度290mm 01021 D-固定式熔断器管座,E27/25A/500V,三相,螺钉连接 01022 D-固定式熔断器管座,E33/63A/690V AC,三相,螺钉连接 01024 边框,封闭的,17x86x2400,上/下,供没有底槽的系统用 01025 预留空间盖,1100mm,只适于支架01 026 01026 支架,适用12-30x5/10双T形母线,用于预留空间盖板01 025 01027 多层铜母线,360A, 2m,3x20x1,截面60mm2 01028 多层铜母线,462A, 2m,6x20x1,截面120mm2 01029 多层铜母线,645A, 2m,10x20x1,截面200mm2 01030 边框,切口的,17x86x2400,上/下,供没有底槽的系统用 01032 连接夹, 用于母线 40 x 10,可用于1250A 01033 连接夹, 用于母线 50 x 10,可用于1250A 01034 连接夹, 用于母线 60 x 10,可用于1250A 01035 多层铜母线,402A, 2m,6x15.5x0.8,截面74.4mm2 01037 槽边框, 17 x 36 x 1100,上/下,用于所有槽 01038 槽边框, 17 x 36 x 700,上/下,用于所有槽 01039 边框,封闭的,17x86x1100,上/下,供没有底槽的系统用 01040 边框,封闭的,17x86x 700,上/下,供没有底槽的系统用 01041 边框,切口的,17x86x1100,上/下,供没有底槽的系统用 01042 边框,切口的,17x86x 700,上/下,供没有底槽的系统用 01043 槽边框,用于宽槽,下, 77 x 36 x 1100 01044 槽边框,用于宽槽,下, 77 x 36 x 700 01045 底槽,230x2400,3线 01046 底槽,290x2400,带电缆槽,,3线带电缆槽或4线 01047 螺拴连接夹,可插接,10mm厚以及双T型或三T型母线,M10x10,630A 01048 槽边框,17x36x2400,上/下,用于所有槽 01050 多层铜母线,253A,2m, 6x13x0.5,截面39mm2 01053 槽边框,用于宽槽,下, 77 x 36 x 2400 01054 多层铜母线,134A,3x9x0.8,截面21.6mm2 01055 多层铜母线,166A,8x6x0.5,截面24mm2 01056 母线架盖 01058 D0-母线式熔断器管座,E18/63A/400V,宽36mm,10和双T型母线 01059 定位环-钥匙,E27/E33 01060 多层铜母线, 930 A, 5 x 50 x 1,截面250mm2 01061 多层铜母线,1775 A, 10 x 80 x 1,截面800mm2

威盛智能表说明书

威盛智能表说明书

照需量周期进行需量测量,当第一个需量周期完成后,按滑差间隔开始最大需量记录。在一个不完
整的需量周期内,不做最大需量的记录。
(3)功率方向改变时,需量中间单元清零。跨费率时段时,需量中间单元不清零,保证总最大
需量计量的连续性。下面几种情况需量中间单元清零:1电表总清零;2通讯命令清最大需量时;3按键
手动清最大需量时;4功率方向改变时;5跨月结算时。
MODBUS代码 DL/T645代码 数据内容
1.2 产品特点
本仪表采用了高精度采样计量单元和高速 MCU 数据处理单元,可实现高精度宽范围准确计量
和快速数据分析;采用段码式多行宽视角液晶显示屏,显示内容很丰富;液晶配备白色背光,可满
足黑暗环境下查阅数据的要求;采用非易失存储器存储各类数据,可长时间保存数据且掉电不丢失;
采用高精度带温补功能的时钟芯片,在工作温度范围内有效保证了时钟的准确性;支持双通信端口
位号
功能
位值与功能对应关系
缺省值
Bit 7
保留
0
Bit 6
保留
0
Bit 5
需量同步模式
1: 分钟同步 0: 时钟同步
1
Bit 4
极值结算方式
1:按日结; 0:按月结
0
Bit 3
保留
0
Bit 2
保留
0
Bit 1
保留
0
Bit 0
保留Leabharlann 0拟 制:刘展未 尹凌 2013-01-28 审 核: 工 艺: 标准化: 批 准:
GB/T17215.301-2007 多功能电能表 特殊要求
GB/T17215.322-2008 静止式有功电能表(0.2S级和 0.5S级)

电磁球阀-QDF-4电磁球阀

电磁球阀-QDF-4电磁球阀

液压阀门>>液压球阀>>电磁球阀产品名称:电磁球阀产品型号:QDF-4产品口径:DN6产品压力:1.6-50.0MPa产品材质:铸钢、不锈钢等产品概括:生产标准:国家标准GB、机械标准、化工标准HG、美标API、ANSI、德标DIN、日本JIS、JPI、英标BS 生产。

阀体材质:铜、铸铁、铸钢、碳钢、WCB、WC6、WC9、20#、25#、锻钢、A105、F11、F22、不锈钢、304、304L、316、316L、铬钼钢、低温钢、钛合金钢等。

工作压力1.0Mpa-50.0Mpa。

工作温度:-196℃-650℃。

连接方式:螺纹、外螺纹、法兰、焊接、对焊、承插焊、卡套、卡箍。

驱动方式:手动、气动、液动、电动。

产品详细信息QDF-4系列电磁球阀技术参数公称压力:31.5MPa公称通径:6mm工作电压:12V、24V、36V、220V适用介质:液压油外形尺寸名称型号阀芯机能机能代号机能符号23QDF6K-4/315E* 常开型K二位三通23QDF6B-4/315E* 常闭型 B电磁阀系列价格供用户或工程项目做预算品名规单价(元)一、阀门的选型步骤1.明确阀门在设备或装置中的用途,确定阀门的工作条件:适用介质、工作压力、工作温度等等。

2.确定与阀门连接管道的公称通径和连接方式:法兰、螺纹、焊接等。

3.确定操作阀门的方式:手动、电动、电磁、气动或液动、电气联动或电液联动等。

4.根据管线输送的介质、工作压力、工作温度确定所选阀门的壳体和件的材料:灰铸铁、可锻铸铁、球墨铸铁、碳素钢、合金钢、不锈耐酸钢、铜合金等。

5.确定阀门的型式:闸阀、截止阀、球阀、蝶阀、节流阀、安全阀、减压阀、蒸汽疏水阀、等。

6.确定阀门的参数:对于自动阀门,根据不同需要先确定允许流阻、排放能力、背压等,再确定管道的公称通径和阀座孔的直径。

7.确定所选用阀门的几何参数:结构长度、法兰连接形式及尺寸、开启和关闭后阀门高度方向的尺寸、连接的螺栓孔尺寸和数量、整个阀门外型尺寸等。

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520 PARK EAST BLVD, NEW ALBANY, IN 47150 PHONE: 812-944-6733 FAX: 812-948-5047 e-Mail: info@ code: 55322
DESCRIPTION: DWG. NO.
DO NOT SCALE DRAWING SHEET SCALE: 2.5:1
"R" REF "S"
C
.020 0.51
C
"C" (SEE TABLE 4)
.2750 6.985
NOTE: "R" = (No OF POSITIONS / 16) x .7875[20.003] "S" = (("R" - .275[6.99]) / 2) .020[.51]
* *
* =NOT ENGINEERING APPROVED
* = NOT ENGINEERING APPROVED
= SEE SHEET 3
.055 1.40
C
"A" "A"
QTS-25-01-D-XX "B" REF Q
C
T-1S56-XX-XXX .155±.003 3.94±0.08
"A" .001[.03] (SEE NOTES 9, 10 & 12)
(No OF POS/16) x .7875[20.003] REF
DETAIL 'A' SCALE 6 : 1
01 .155 3.94 REF (SEE NOTE 16) 02 .0325 0.826 REF .025 0.64 REF
C
7 EQ SPACES @ .075[1.91] .7875 20.003 REF
PROPRIETARY NOTE
THIS DOCUMENT CONTAINS INFORMATION CONFIDENTIAL AND PROPRIETARY TO SAMTEC, INC. AND SHALL NOT BE REPRODUCED OR TRANSFERRED TO OTHER DOCUMENTS OR DISCLOSED TO OTHERS OR USED FOR ANY PURPOSE OTHER THAN THAT WHICH IT WAS OBTAINED WITHOUT THE EXPRESSED WRITTEN CONSENT OF SAMTEC, INC.
UNLESS OTHERWISE SPECIFIED, DIMENSIONS ARE IN INCHES. TOLERANCES ARE: .XX: .01[.3] .XXX: .005[.13] .XXXX: .0020[.051]
MATERIAL:
DECIMALS
ANGLES
2
520 PARK EAST BLVD, NEW ALBANY, IN 47150 PHONE: 812-944-6733 FAX: 812-948-5047 e-Mail: info@ code: 55322
DWG. NO.
/
F:\DWG\MISC\MKTG\QTS-XXX-XX-XXX-D-DP-XX-MKT.SLDDRW
BY: KEVIN B
QTS-XXX-XX-XXX-D-DP-XX
09-14-2010
SHEET 1 OF 3
REVISION Q
FIG 3
-K: POLYIMIDE FILM PAD (USE K-500-300)
SEE TABLE 2
'A'
.0375 0.953 REF
QTS-25-01-D-XX-A
QTS-048-01-XXX-D-DP-LC SHOWN
FIG 1
.0375 0.953 REF
.035 0.89 REF
{(No OF POS/16) x .7875[20.003]} - .060[1.52] REF -A: ALIGNMENT PIN OPTION SHOWN
BY: N B
REVISION Q
01
* *
* =NOT ENGINEERING APPROVED FIG 4
T-1S51-XX-XXX
02
QTS-25-02-D-XX (SEE NOTE 13)
QTS-048-03-XXX-D-DP-LC SHOWN [DIFFERENT AS SHOWN, OTHERWISE SAME AS FIG 1] .155±.003 3.94±0.08
DESCRIPTION:
DO NOT SCALE DRAWING
SHEET SCALE: 1.5:1
.635mm DIFFERENTIAL PAIRS HS TERMINAL ASSEMBLY
INSULATOR: LCP, COLOR: BLACK TERMINAL & GROUND PLANE: PHOS BRONZE
REVISION Q
DO NOT SCALE FROM THIS PRINT
.006 0.15 REF
ASO ONLY (APPLICATION SPECIFIC ORDER)
QTS-XXX-XX-XXX-D-DP-XX
No OF POSITIONS -016, -032, -048, **-064, **-080 (PER ROW) OPTION -A: ALIGNMENT PINS (SEE FIG 2) (USE QTS-25-01-D-XX-A) -LC: LOCKING CLIPS (SEE FIG 1, NOTE 15) (USE LC-08-TM-01) -K: POLYIMIDE FILM PAD OPTION (SEE FIG 3, SHT. 2) (USE K-500-300) -TR: TAPE & REEL OPTION (48 POS MAX) -DP: DIFFERENTIAL PAIRS ROW SPECIFICATION -D: DOUBLE (SEE TABLE 3)
.265 6.73 REF
.281 7.14
QTS-25-02-D-XX (SEE NOTE 13)
.635mm DIFFERENTIAL PAIRS HS TERMINAL ASSEMBLY
QTS-XXX-XX-XXX-D-DP-XX
09-14-2010
SHEET 2 OF 3
F:\DWG\MISC\MKTG\QTS-XXX-XX-XXX-D-DP-XX-MKT.SLDDRW /
PROPRIETARY NOTE
THIS DOCUMENT CONTAINS INFORMATION CONFIDENTIAL AND PROPRIETARY TO SAMTEC, INC. AND SHALL NOT BE REPRODUCED OR TRANSFERRED TO OTHER DOCUMENTS OR DISCLOSED TO OTHERS OR USED FOR ANY PURPOSE OTHER THAN THAT WHICH IT WAS OBTAINED WITHOUT THE EXPRESSED WRITTEN CONSENT OF SAMTEC, INC.
.644 16.36 REF .075 1.91 REF
**SEE NOTE 14 LEAD STYLE -01: .1680[4.267] -02: .2861[7.264] -03: .4042[1.123] -04: .6000[15.240] * -05: .7180[18.237] * -06: .8360[21.234] .235 5.97 PLATING SPECIFICATION REF -F: FLASH SELECTIVE GOLD, MATTE TIN TAILS (USE T-1SXX-XX-F & T-1G1-XX-F)(SEE NOTE 11) -L: LIGHT SELECTIVE GOLD, MATTE TIN TAILS (USE T-1SXX-XX-L & T-1G1-XX-L) -H: HEAVY GOLD (USE T-1SXX-XX-H & T-1G1-XX-G) .008 0.20 REF -STL: HEAVY SELECTIVE GOLD, TIN LEAD TAILS (USE T-1SXX-XX-STL & T-1G1-XX-STL) -FTL: FLASH SELECTIVE GOLD, TIN LEAD TAILS (USE T-1SXX-XX-FTL & T-1G1-XX-FTL)
C
"B"
QTSH-25-XX-D-XX
Q .278 7.06 REF
"D" .001[.03] C (SEE NOTES 9, 10 & 12)
C
.003[.08]
LC-08-TM-01 .010 0.25 REF 2 MAX SWAY (TYP)
"B"
T-1G1-XX-XXX .0550 1.397
C
.003[.08]
.010 0.25 REF
.745 18.92 REF ({(No OF POS/16) x .7875[20.003]} - .060[1.52]) .003[.08] T-1G1-XX-XXX 2 MAX SWAY (TYP)
LC-08-TM-01
C
(SEE NOTES 10 & 12) .037 0.94 REF .280 7.11 REF .0375 0.953 REF .015 0.38 REF
C
SEE TABLE 2 (SEE NOTES 10 & 12) .0525 1.334 REF .056 1.42 REF
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