omron_变频器3G3EV手册(E)
欧姆龙3G3JV变频器说明书
Global Construction Easy to install and maintain•Optional DIN-rail bracket for quick rail mounting •Space-saving design ideal for new or retrofit panels •Easily mounted cooling fan can be adjusted to run only when the JV is runningEasy to setup and program•Integrated, face-mounted speed potentiometer for quick start up after power is applied •Quick-start LEDs for easy programming•Communication options include RS-232C/485•Multi-step speed control for up to nine steps,UP/DOWN operation, and jog operationOutstanding price/performance relationship•Ideal for simple, low horsepower speed control applications•Excellent starting torque of 150% at 3Hz •Virtually immune to overload•Consistent performance despite changing conditions•Full-range automatic torque boost •Slip compensationWiring DiagramMulti-function I/O support•Supports analog inputs of 0 to 10V, 4 to 20 mA, or 0 to 20 mA •Supports an analog monitor output and a digital output •Accepts both PNP and NPN inputsProtection for your machinery•A high-speed current limiting function minimizes over-current trips (above 250% of rated current)•Quick restarts after momentary power loss •Stall prevention and fault retry functions •Overtorque detection•UL recognized electronic thermal overload•Inrush current suppression and ground fault protectionglobal application coverage.The SYSDRIVE JV Series of Micro Inverters delivers precisecontrol without compromising panel space or your budget.InputNote: Connect single-phase 230 VAC to terminals R/L1and S/L2 of the 3G3JV-AB ".Getwith the best value at*1: Based on a standard 4-pole motor for max. applicable motor output. Select the inverter model within the allowable motor rated current *2: Shows deceleration torque for uncoupled motor decelerating from 60 Hz with the shortest possible deceleration time*3: Temperature during shipping (for short period)CANADA REGIONAL SALES OFFICEUNITED STATES REGIONAL SALES OFFICESSao Paulo 55.11.5564.6488BRAZIL SALES OFFICE Buenos Aires 54.114.787.1129ARGENTINA SALES OFFICE 800.55.OMRON or 847.843.7900Toronto 416.286.6465OMRON ELECTRONICS, INC.Industrial Automation Division Schaumburg, ILOMRON IDM CONTROLS, INC.Houston, TX800.395.4106 or 713.849.1900OMRON CANADA, INC.Scarborough, Ontario 24 Hour Control Fax United States 847.843.1963Canada 877.599.4264©2000 OMRON ELECTRONICS, INC.SB JVSERIES-1 3/00/20M, 6.5M , 5M/oei*Nominal HP ratings based on standard 1800 RPM motor amperage.Select the inverter model within the allowable motor rated current.Use of high efficiency motors and motors of different base speeds may increase/decrease the applicable motor HP .。
欧姆龙3G3JV变频器指导书
欧姆龙变频器G3JV-AB007型实训指导书亚龙科技集团有限公司前言随着电力电子技术、微电子技术、计算机控制技术及自动化控制理论的发展,变频器制造技术有了跨越式的进步,以变频器为核心的交流电机调速已广泛应用于国民经济各部门,在工业自动化领域,交流电机调速已经取代传统的直流调速系统,而且大大提高了技术经济指标。
在耗电大户的风机、泵类(其耗电量几乎占工业用电一半),应用变频器控制,可以大大节约电能;在广泛关系各行各业的机械专业,应用变频器技术,是改造这一传统产业,实现机电一体化的重要手段;此外,在化纤、纺织塑料、化学、轻工等工业领域,应用变频器技术。
实现自动化提高了产品的质量与数量变频器不仅应用于工业、交通领域,而且已进入家庭,在家电工业领域,空调器、电冰箱都有了变频器控制的相应产品,提高了家电产品的经济技术指标和智能化水平。
随着现代化的程度提高,队变频器的应用会更加普及。
使用好变频器是一门实践性很强的学问,有人说,使用好变频器的难易程度并不亚于使用好一台个人电脑。
但是,现在社会上已有的有关变频器技术资料,多为变频器的设计。
制造方面的专著,即使学习和掌握了这方面内容的学生,到了工程现场,仍不能正确使用和操作变频器,这是由于有关使用变频器的资料太少,更不要说变频器的实训装置了,而社会上需要正确使用变频器的技术人员显然比设计制造变频器的技术人才要多的多,针对这一情况,我公司设计了变频器实训模块,并将撰写有关变频器使用技能的教材供本科、大专、高职中专等各类学校相关专业选用,尤其适用职业技术教育。
我公司设计的实训模块选用的是欧姆龙的3G3JV AB007型,就可触类旁通掌握其它厂家的变频器的使用方法与技能。
学生可以在实训台上了解变频器的结构、安装及接线的基本知识,进而学会使用变频器的基本技能,包括参数设定和操作方法,控制回路接线端子的设置,接线及智能化功能,功能参数的设置,变频器的维护等进行实际操作培训.在此基础上可以对模拟的实际工业控制系统:恒压供水系统、中央空调冷水系统,泵自动切换控制系统的模拟设计和调试,完成一个变频器工程题的实际操作训练,以满足社会生产实践的需要。
欧姆龙 SYSDRIVE 3G3MZ系列 矢量控制型变频器 说明书
ⶶ䞣 乥 SYSDRIVE 3G3MZ ㋏ SYSDRIVE 3G3MZ ㋏ ⶶ䞣 乥 I555-CN5-02I555-CN5-02200608SXX安全注意事项■为了安全、正确地使用欧姆龙变频器产品,使用前务必认真阅读[安全注意事项]在熟记设备知识、安全信息及注意事项后进行使用。
■最终购买并使用本产品的用户必须具备此手册。
■阅读后,请务必常备以便查询。
●手册中作记载的图解,有时为了进行详细说明,故作图时可能未画外壳或安全防护装置,在使用商品时请严格按照本书的规定安装外壳及安全防护装置。
●如需要长期保管,请向本公司销售人员垂询。
1安全注意事项2安全注意事项3(1)关于设置、保存环境请避免在以下环境中使用和保存:1.日光直射的场所;2.环境温度超过规格要求的场所 使用环境温度:-10℃~+50℃(紧密安装时:-10℃~+40℃);3.相对湿度超过规格要求的场所 使用环境湿度:相对湿度90%以下;4.温度变化剧烈容易引起结露的场所;5.有腐蚀性气体、可燃性气体的场所;6.可燃物上或其附近的场所;7.尘土、粉尘、盐分、铁粉较多的场所;8.有水、油、化学品飞沫喷溅的场所;9.对本体直接产生振动和冲击的场所。
(2)关于运送、设置、布线1.运输本产品时应使用专用包装箱。
2.应避免强烈的冲击或跌落,否则可能造成部件故障、产品破损。
3.输出U/T1、V/T2、W/T3端子上请勿连接交流电源,否则可能引起产品损坏。
4.本产品的输出端子(U/T1、V/T2、W/T3)上请勿连接三相感应电机以外的负载。
5.请勿在继电器输出以外的控制输入输出端子上连接交流电源,否则可能导致产品破损。
6.用于主回路端子布线的电线应采用变频器功率指定线径的600V 绝缘电线。
另外,端子台螺钉也应按照变频器功率指定的紧固力矩进行充分固定。
7.在以下场所使用时,请充分采取遮蔽措施:·有静电等可能产生电气噪音的场所;·产生强磁场的场所;·附近有电源线通过的场所。
欧姆龙 3G3MV 系列通用变频器 说明书
限制运转方向 (n006)................................................................ 51 阶梯形改变速度........................................................................ 51 低速运行.................................................................................... 52 调整速度设定信号.................................................................... 53 限制速度.................................................................................... 54 使用 2 套加减速时间................................................................ 54 瞬时停电复电后的自动再起动 (n081).................................... 55 平滑运行 (n023)........................................................................ 56 力矩的检测................................................................................ 56 检测频率 (n095)........................................................................ 58 避免共振 (n083 ~ n086).......................................................... 59 故障时自动复位并继续运行 (n082)........................................ 59 自由滑行中的电机无抖动运转................................................ 60 加减速暂停................................................................................ 61 使用频率表,电流表 (n066).................................................... 62 校正频率表·电流表 (n067).................................................... 62 脉冲序列信号输出作为模拟量输出 (AM-AC) 使用.............. 63 降低杂波和漏电流 (n080)........................................................ 65 STOP 键的有效 / 无效的选择 (n007) ...................................... 67 ■ 选择停止方法............................................................................ 67 选择停止方法 (n005)................................................................ 67 进行直流制动............................................................................ 68 ■ 与外部接口回路组合................................................................ 69 使用输入信号............................................................................ 69 使用多功能模拟量输入功能 (n007,n078,n079)...................... 72 使用输出信号 (n057,n058,n059) .............................................. 74 ■ 以电流指令输入设定频率........................................................ 75 ■ 用脉冲序列输入设定频率指令................................................ 77 防止电机失速............................................................................ 78 运行中失速防止的功能 UP ..................................................... 79 ■ 减少电机的速度变动................................................................ 81 补偿电机的转差 (V/f 控制模式 n002=0 的场合 ) .................. 81
欧姆龙3G3EV变频器设置(中文)
4 1 1 0 100 0 0 0
n45 n46 n47 n48 n49
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n53 n54 n55 n56 n57 n58 n59 n60 n61 n62 n63 n64 n65 n66 n67 n68 n69
监视增益 Ⅱ流控制电流 中断停止时Ⅱ流控制时间 此项对n03项减速停止时起作用 启动直流控制时间 S形加速减速时间 此参数是用于设备启动和停止时减小对设备的冲击 0-无S形加速\减速功能 1-时间设定0.2s 2-时间设定0.2s 3-时间设定0.2s 注释:如果此参数被设定为1、2或3,加速时间相应增加为0.2、0.5或1s 过力矩检测功能选择 0-变频器无过扭矩保护控制 1只有速度增加时,变频器控制过力扭矩,过扭矩时继续运转,但出现报警 2-只有速度增加时变频器控制过力扭矩,过扭矩时机器停止运行 3-变频器一直控制过力扭矩,过扭矩时继续运转并报警阵 4变频器一直控制过力扭矩,当过扭矩时,机器停止运转 过力矩检测值 过力矩检测时间 0-变频器无过扭矩保护控制 1-只有速度增加时,变频器控制过力扭矩,过扭矩时继续运转,但出现报警 2-只有速度增加时变频器控制过力扭矩,过扭矩时机器停止运行 3-变频器一直控制过力扭矩时继续运转并且报警 4-变频器一直控制过力扭矩,当过扭矩时,机器停止运转 频率检测值 转差补偿增益 空载电机电流 跳跃频率1 跳跃频率2 跳跃频率3 跳跃频率幅度 故障重试次数选择 设定范围:0-10次 出厂设定:0次 停止键选择 0-停止键可用 1-停止键不可用 转差补偿时间 频率设定方法
0
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欧姆龙3G3JV变频器指导书_图文(精)
欧姆龙变频器G3JV-AB007型实训指导书亚龙科技集团有限公司前言随着电力电子技术、微电子技术、计算机控制技术及自动化控制理论的发展,变频器制造技术有了跨越式的进步,以变频器为核心的交流电机调速已广泛应用于国民经济各部门,在工业自动化领域,交流电机调速已经取代传统的直流调速系统,而且大大提高了技术经济指标。
在耗电大户的风机、泵类(其耗电量几乎占工业用电一半,应用变频器控制,可以大大节约电能;在广泛关系各行各业的机械专业,应用变频器技术,是改造这一传统产业,实现机电一体化的重要手段;此外,在化纤、纺织塑料、化学、轻工等工业领域,应用变频器技术。
实现自动化提高了产品的质量与数量变频器不仅应用于工业、交通领域,而且已进入家庭,在家电工业领域,空调器、电冰箱都有了变频器控制的相应产品,提高了家电产品的经济技术指标和智能化水平。
随着现代化的程度提高,队变频器的应用会更加普及。
使用好变频器是一门实践性很强的学问,有人说,使用好变频器的难易程度并不亚于使用好一台个人电脑。
但是,现在社会上已有的有关变频器技术资料,多为变频器的设计。
制造方面的专著,即使学习和掌握了这方面内容的学生,到了工程现场,仍不能正确使用和操作变频器,这是由于有关使用变频器的资料太少,更不要说变频器的实训装置了,而社会上需要正确使用变频器的技术人员显然比设计制造变频器的技术人才要多的多,针对这一情况,我公司设计了变频器实训模块,并将撰写有关变频器使用技能的教材供本科、大专、高职中专等各类学校相关专业选用,尤其适用职业技术教育。
我公司设计的实训模块选用的是欧姆龙的3G3JV AB007型,就可触类旁通掌握其它厂家的变频器的使用方法与技能。
学生可以在实训台上了解变频器的结构、安装及接线的基本知识,进而学会使用变频器的基本技能,包括参数设定和操作方法,控制回路接线端子的设置,接线及智能化功能,功能参数的设置,变频器的维护等进行实际操作培训.在此基础上可以对模拟的实际工业控制系统:恒压供水系统、中央空调冷水系统,泵自动切换控制系统的模拟设计和调试,完成一个变频器工程题的实际操作训练,以满足社会生产实践的需要。
3G3FV变频器使用手册
3G3FV变频器使用手册最后修订:1996年7月警告手册如果改变不令行通知。
此手册制作精细,但对于手册使用时所造成的身体伤害,Omron不付任何责任。
简介感谢您购买高性能无线变频器。
您现在将拥有一台技术先进,功能繁多,可靠性及安全性强的驱动器。
3G3FV系统驱动器具有高性能直流驱动器的功能,若装入一个反馈编码器,就可拥有交流感应电动机的全部功能。
·在未启动时应向挤压机,起重机和提升机提供150%转矩。
·杰出的速度调节来源于高韧性全自动速度调节系统。
·精确的转矩控制来源于全自动内置流动调节系统。
若没有使用反馈编码器,可开启循环流动向量。
后者包括一种独特的向量控制系统,可确保运行速稳定并将100%转矩降到1 Hz。
结构菜单A部分:初始化请注意●运行时只能使用A1-00或A1-02。
●切换流动失量与V/F控制时,建议先停机。
否则会导致OPE02故障。
●仅当02-03=1及A2-_不空时可进行使用常数的初始化。
参量转换图例:A1-00●按下输入键可降低一个水平。
●按下取消键可升高一个水平。
●按下上下键可在同一水平内选择参数组。
A1-01参数存取A1-01=00 可完成监视功能。
A1-01=01仅可显示A2存储器中的参数。
最多可存储参数。
若A2存储器内没安装02-03,A2_参数上述选择将无法显示。
A1-01=02~04 请参照表格。
使用:快速参考表请注意:·在流动矢量关闭的情况下切换到V/F控制会发生OPE02故障。
确保设备中全部输入输出功能要与V/F兼容。
例如:在返回V/F时若输入一个信息到服务器中就会出现故障。
·改变运行方式重新回到生产默认状态。
A1-04,A1-05:口令输入个人口令的设置及选择:例如设置一个新口令:“1111”1.按照下述路线存取A1-04。
2.口令输入提示。
3.同时按下RESET和MENU键,将1111设置为新口令。
4.显示出A1-05最近使用的口令。
3VE系列断路器使用说明书
安全防护措施
1) 应由专业人员进行安装,接线时要核对电源电压、线路电流与断路器额定电压,整定电流是 否相符。 2) 使用中不得打开断路器的上盖,以免发生危险。 3) 露天使用或环境条件恶劣必须有防淋、防溅、防粉尘措施。 4) 不要将断路器安装在有易燃易爆、腐蚀金属以及破坏电器绝缘的气体的场合。 5) 断路器上方不得码放物品,以防金属物件掉入电器造成极间短路,发生危险。
0.4~0.63 0.63~1 1~1.6 1.6~2.5 2.5~4 4~6.3 6.3~10 10~16
3VE1005-2BU00 3VE1005-2CU00 3VE1005-2DU00 3VE1005-2EU00 3VE1005-2FU00 3VE1005-2GU00 3VE1005-2HU00 3VE1005-8HU00 3VE1005-2JU00 3VE1005-8JU00 3VE1005-2KU00 3VE1005-8KU00 3VE1005-2LU00 3VE1005-8LU00 3VE1005-2MU00 3VE1005-2NU00 3VN1000-0HF00 3VN1000-0HG00 3VN1000-0HH00 3VN1000-0HJ00 3VN1000-0HK00 3VN1000-0HL00 3VN1000-0HM00 3VN1000-0HN00 3VA8000-2E 3VA8000-2F 3VA8000-2G 3VA8000-2H 3VA8000-2J 3VA8000-2K 3VA8000-2L 3VA8000-2M
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表1
辅助触头形式 无辅助触头 一常开一常闭 二常开 二常闭
3VE1 电动机保护型低压断路器 可控三相电动机额定功率: AC 50Hz 380V 10 kW AC 50Hz 660V 13kW
欧姆龙3G3JV变频器指导书
欧姆龙变频器G3JV-AB007型实训指导书亚龙科技集团有限公司前言随着电力电子技术、微电子技术、计算机控制技术及自动化控制理论的发展,变频器制造技术有了跨越式的进步,以变频器为核心的交流电机调速已广泛应用于国民经济各部门,在工业自动化领域,交流电机调速已经取代传统的直流调速系统,而且大大提高了技术经济指标。
在耗电大户的风机、泵类(其耗电量几乎占工业用电一半),应用变频器控制,可以大大节约电能;在广泛关系各行各业的机械专业,应用变频器技术,是改造这一传统产业,实现机电一体化的重要手段;此外,在化纤、纺织塑料、化学、轻工等工业领域,应用变频器技术。
实现自动化提高了产品的质量与数量变频器不仅应用于工业、交通领域,而且已进入家庭,在家电工业领域,空调器、电冰箱都有了变频器控制的相应产品,提高了家电产品的经济技术指标和智能化水平。
随着现代化的程度提高,队变频器的应用会更加普及。
使用好变频器是一门实践性很强的学问,有人说,使用好变频器的难易程度并不亚于使用好一台个人电脑。
但是,现在社会上已有的有关变频器技术资料,多为变频器的设计。
制造方面的专著,即使学习和掌握了这方面内容的学生,到了工程现场,仍不能正确使用和操作变频器,这是由于有关使用变频器的资料太少,更不要说变频器的实训装置了,而社会上需要正确使用变频器的技术人员显然比设计制造变频器的技术人才要多的多,针对这一情况,我公司设计了变频器实训模块,并将撰写有关变频器使用技能的教材供本科、大专、高职中专等各类学校相关专业选用,尤其适用职业技术教育。
我公司设计的实训模块选用的是欧姆龙的3G3JV AB007型,就可触类旁通掌握其它厂家的变频器的使用方法与技能。
学生可以在实训台上了解变频器的结构、安装及接线的基本知识,进而学会使用变频器的基本技能,包括参数设定和操作方法,控制回路接线端子的设置,接线及智能化功能,功能参数的设置,变频器的维护等进行实际操作培训.在此基础上可以对模拟的实际工业控制系统:恒压供水系统、中央空调冷水系统,泵自动切换控制系统的模拟设计和调试,完成一个变频器工程题的实际操作训练,以满足社会生产实践的需要。
OMRON 欧姆龙 3G3EV 变频器参数
n39 n40 n61 n64
Frequency reference gain Frequency reference bias Stop Key selection Operator’s frequency setting method
Note 1. The upper limit of setting range and the factory settings for the 400-VAC-class Inverters are double the above values. Note 2. The setting range of the 400-VAC-class Inverter is “1 to 5.” The factory setting of the 3G3EV-A4015M-CUE is “3.” Note 3. Values in shaded sections or values in brackets represent factory settings.
Chapter 7
Standard Model
Setting
n03 n04
Stop mode selection Forward / /Reverse rotation selection Multi-function input selection
0: Only n01 can be set. 1: All constants can be set. 8: Constant settings are initialized. 9: Inverter is initialized in 3-wire sequence mode. Run command Frequency reference 0 Digital Operator Digital Operator 1 Control terminal Digital Operator 2 Digital Operator Control terminal (voltage input) 3 Control terminal Control terminal (voltage input) 4 Digital Operator Control terminal (amperage input) 5 Control terminal Control terminal (amperage input) 0: Deceleration stop 1: Free running f%r: forward rotation reU: reverse rotation 0: Forward/reverse rotation command 1: Fault reset 2: External fault (external fault when ON) 3: External fault (external fault when OFF) 4: Multi-step speed command 0: Fault occurrence 1: Operation in progress 2: Frequency matching 0.0 to 400 (Hz) [6.0] 0.0 to 400 (Hz) 0.0 to 999 (seconds)function output selection Frequency reference 1 Frequency reference 2 Acceleration time
OMRON变频器说明书(3G3JV中文版)
主机各部分名称安装尺寸和外形尺寸3G3JV- W W1 H H1 DA2001,A2001AB001,AB00268 56 128 118 70A1001 80 A2004 102 A1002,AB004 112 A2007 122A4002108 96 128 118 81A4004 99A2015,AB007A4007129A2022,AB015A4015,A4022154A2037,A4037 140 128 128 118 161标准连接图操作部各部分名称外貌名称功能数据显示部显示频率指令值、输出频率数值及参数常数设定值等相关数据。
频率指令旋钮通过旋钮设定频率时使用。
旋钮的设定范围可在0Hz~最高频率之间变动。
频率指令LED灯亮时,可以设定或监控频率指令。
输出频率LED灯亮时,可以监控变频器的输出频率。
输出电流LED灯亮时,可以监控变频器的输出电流。
多功能控制键LED灯亮时,可以对照U01U10的监控值。
正转/反转选择LED灯亮时,可以选择用RUN键控制运转时的运转方向。
本地/远程选择LED灯亮时,从数字操作器的操作切换成按照已设定好的参数进行常数操作。
※变频器运转中,只能进行对照。
另外,此时LED灯亮时,即使输入运转指令也不会被执行。
参数常数设定LED灯亮时,可以设定/对照n01~n79的参数常量。
※变频器运转中,只能执行部分对照及设定值变更。
另外,此时LED灯亮时,即使输入运转指令也不会被执行。
状态键简易LED(设定/监控LED)按顺序切换。
在参数常数设定过程中,按此键则为跳过功能。
增加键增加多功能监控No.的数值、参数常数No.的数值、参数常数的设定值。
减少键减少多功能监控No.的数值、参数常数No.的数值、参数常数的设定值。
输入键多功能监控No.、参数常数No.及内部数据值的切换。
另外,确认变更后的参数常数设定值时,按此键。
RUN键启动变频器(但仅限于使用数字操作器选择操作/运转时)。
Omron G3 Series HMI 产品说明书
Web-enabled Graphic OperatOr interface terminalsl R emote Monitoring and Operation l T he Most On-Board Comms Ports l B uilt-In Ethernet l P rotocol Converter l A ffordable PriceG3 Series HMI, shown smaller than actual size.Now you can make complete integration of your machine a reality. The G3 HMI Series features the most on-boardcommunications ports of any HMIavailable, and lets you web- and network-enable many different types of hardware using integrated Ethernet. Control multiple devices including PLCs, PCs, drives, PID controllers and more—at speeds up to 115 kBaud. Three serial ports are standard, and with an inexpensive expansion card, the G3 HMI integrated protocol converter can communicate with as many as five different device types. No HMI offers that kind of connectivity at any price. And the best news is, the G3 HMIs actually cost LESS than many HMIs with far fewer features.A Variety of Affordable Models Deliver the Most Value of Any HMIG3 HMIs are available in a variety of models and sizes to meet your machine requirements. Each model combines unique capabilities normally expected from high-end units, yet at a very affordable price. One RS422/485 port and two RS232 ports are standard, and each port is format and Baud rate programmable up to 115,200 Baud. One each RS232 and RS422/485 ports are available with an option card, providing up to five comms ports per G3 HMI.The Easiest and Most Flexible Software; and It’s FreeRed Lion’s remarkable Crimson 2 software is a powerful programming platform that gives the G3 Series a number of exclusive functions. Its sophistication also makes all the complex capability of the G3 manageable, with user friendly drag and drop data mapping. Crimson is universal to all Red Lion HMIs. And unlike competitive HMIs that charge you extra for what is often very cumbersome and difficult proprietary software, the initial set up of Crimson is very easy and virtually self-explanatory. Crimson includes an extensive library of devicedrivers to quickly establish communications between the G3 and virtually any device. Once communication is established, anything the G3 can communicate with is now Ethernet-enabled via the built-in gateway and protocol converter. This capability is unavailable in any other HMI Panel. Best of all, Crimson is free. As are software updates, support, cablinginstructions and communication drivers. In fact, if a specific device driver does not exist, Red Lion will write one for you. Try finding this level of support and value with any other HMI!Integrated Protocol Converter Has Them All TalkingCrimson features a built in gateway that converts any attached device’s serialprotocol to 10 Base T/100 Base-TX Ethernet and automatically web-enables the device. Disparate serial devices now speak the same language, and unlike other HMIs that require you to purchase a protocol converter for up to $1,000 additional— on the G3 Series, it’s standard.Built-In Web Server Offers Remote Access and ControlThe Crimson web server is capable of providing remote access to the G3 via a number of mechanisms. First, you can use Crimson to automatically generateVisit us online for our complete line of HMIsG3 SerieS HMiBO p e r a t o r I n t e r f a c e – H M IVirtually Unlimited Data Storagewith CompactFlashAn integrated CompactFlash slotaccommodates inexpensive and readilyavailable Type I and II CompactFlash cardsthat lets you collect, retain and transfer data easily. If you need to update the databasewithin a machine that is already installed at a customer’s site, Crimson allows you to save a copy of the database to a CompactFlashcard, ship that card to your customer,and have the G3 load the database fromthat card.Faster Data Transfer and Downloading with USBThe G3 HMI Series features a convenientUSB port for fast downloads of configuration files from a PC as well as trending and data logging uploads to your PC for analysis.Powerful ProcessingThe G3 HMI Series features an onboard32-bit processor for unmatched computing capability. The full-featured Crimsonsoftware contains a built in “C” compilerto create custom programs for complexapplications, recipe handling, realtimescheduling, math expression evaluationand much more.Faster Configuration and ProgrammingCrimson 2 is a powerful set of icon-based, configuration, display, control and data logging tools designed specifically to take full advantage of the G3 HMI Series architecture. The majority of simple applications can be quickly set up using a step-by-step process to configure communications protocols, define thedata tags to be accessed, and create the user interface. A full set of drag and drop graphical items makes creation of theinterface easy while yielding professional results. More advanced features, such as programming, data logging and configuring the G3’s web server, are intuitive and easily enabled.The Lowest Priced, Full-Featured HMIsFor less than many stripped-down HMIs, you can add the powerful capabilities andease of use found only in the G3 HMI Series. The G3 Series come standard with three serial comms, Ethernet, protocol converter, USB, and CompactFlash slot. And at no extra charge, you get full-featured Crimson2 software with drag and drop configuration and data tagging, easy-to-use interface tools, flexible programming environment, powerful data logging, and our exclusive Virtual Panel and web server capabilities for remote access and control. Lower Manpower and Travel CostsWhy check up on equipment performance manually when you can have the process notify you of pending failure?The G3 series can connect via Ethernet, landline modems, or even cellular modems to reach you anywhere in the world. With built-in email and text messagingfunctions, the G3 allows you to focus only on the areas of concern.web pages that contain lists of tags—each formatted according to the tag’s properties. You can also create a custom web site, using a third party HTML editor such as Microsoft FrontPage, with code that instructs Crimson to insert live tag values for realtime monitoring. And finally, you can enable Crimson’s Virtual Panel, a unique remote access and control feature, which allows a web browser to not only view the G3’s display in realtime, but control its keypad and operate any of its Ethernet-enabled devices remotely. This feature is only available in the G3 HMI Series.Multi-Device Data Logging CapabilitiesCrimson allows users to quickly set up any number of devices in a control application, collect performance data, display it, store it for evaluation, or trigger PLC functions with one panel—either live or remotely. Data may be recorded as quickly as once per second and can be acquired from one or all connected devices. Values are stored in CSV (comma separated variable) files that can easily be imported into applications such as Microsoft Excel. Unique to the G3 HMI, Crimson’s web server can be used to expose various data via the G3 panel’s Ethernet port, allowing remote access to diagnostic information, or to the values recorded by the data logger.Red Lion’s G3 HMI Series is notonly the first to communicatewith up to five different types ofserial devices simultaneously,but lets you access, monitor andcontrol these devices remotely—from across your network, oraround the globe.The following cables may be used to connect the G3 HMI, Data Station Plus or Red Lion Modular Controller Master to the listed device.Model No. deScrIptIoNcBlAB001 Allen Bradley SLC-503 V DF 1 cBlAB002 Allen Bradley PLC-5 V CHNL 0 cBlAB003 Allen Bradley DH48cBlAB004 Allen Bradley PNLVW VIA DF1 cBlGeF01 Ge Fanuc 90S V SNP cBlGeN01 RS232 TO MALE 9-PIN cBlGeN02 RS232 Bare WirescBlGeN03 RS422/485 Bare Wires cBlIde01 Idec Micro 3cBlIde02 Idec Micro 3CcBlIde03 Idec Micro SmartcBlKeY01 Keyence KV Series Cable cBlKoY00 Koyo Model 2xxcBlMAt01 Matsushita FPcBlMAt02 Matsushita FP0cBlMdM00 Modem 9Pin MalecBlMdM01 Modem 25Pin MalecBlMIt01 Misubushi FXcBlMIt02 MITS FX0 and FX0NcBlMIt03 MIT A/QcBlMod01 Modicon (RS232)cBloMr01 Omron (RS232)cBloMr02 Omron SYS C200H-LK210Model No. deScrIptIoNcBloMr03 Omron C-SERIES RS422 cBlproG0 RJ-11 PROG. Lead 10FT cBlrlc00 485 G3 RJ45 - RL RJ11cBlrlc01 RJ12-RJ12 1' CrossedcBlrlc02 RJ12-RJ12 10' CrossedcBlrlc03 RJ45-RJ45 1' StraightcBlrlc04 RJ45-RJ45 10' StraightcBlrlc05 RS485 JumperedcBlrlc06 MC TO RED LION RJ11 RS485 cBlrlc07 RJ45-RJ45 6" StraightcBlrlcS2 RJ12-RJ12 10' StraightcBlSIe01 Siemens S7 PPIcBlSIe02 Siemens MPI with out Adaptor cBlSIe03 Siemens MPI with Adaptor cBlSIe04 TI 545 on Port 1cBlSIe05 Siemens 545/555 RS232 cBlSIe06 Siemens 545/555 - RS422 cBlSIe07 TI 500 SeriescBlSIe08 Siemens-CP525 Comm Card cBlSIe09 Siemens-S5 with Adaptor cBltel00 G3 Telemechanique RS485 cBltel01 G3 Telemechanique SLV 485 cBlYAS01 Yaskawa SMC3010Accessory Cables The Only HMI That Web-Enables Any Device for Remote Operation Across Your LAN or the InternetBO p e r a t o r I n t e r f a c e – H M Ithe G303 OperatOr interfacel U p To 5 RS232/422/485Communications Ports (2 RS232 and 1 RS422/485 On Board, 1 RS232 and 1 RS422/485 On Optional Communications Card)l 10 Base T/100 Base-TX Ethernet Port To Network Units and Host Web Pages l U SB Port To Download TheUnit’s Configuration from a PC Or for Data Transfers to a PC l U nit’s Configuration is Stored In Non-Volatile Memory (4 MB Flash)l C ompactFlash ® Socket to Increase Memory Capacity l 3.2" 128 x 64 Pixel LCD With Yellow Led Backlight, Able to Support Text and Simple Graphics l O utdoor Unit with UV Rated Overlay Available l 32 Button Keypad with User Identifiable Keys, Navigational Keys, Numeric Keys, Keys for On-Screen Menus, and Other Various Keys l T hree Front Panel LEDs l P ower Unit From 24 Vdc ±20% Supply l F or Use in Hazardous Locations: Class I, Division 2, Groups A, B, C, and D; Class II, Division 2, Groups F and G; Class III, Division 2To Order Visit /g3_hmi303 for Pricing and DetailsModel No. deScrIptIoNG303M000 3.2" operator interface, LCD 128 x 64 pixel, indoor use G303S000 3.2" operator Interface, LCD 128 x 64 pixel, outdoor use G3cF064M 64 MB compact flash card (industrial grade) G3cF256M 256 MB compact flash card (industrial grade) G3cF512M 512 MB compact flash card (industrial grade)SFcrM200 Crimson programming software, manual and USB cable pSdr0100 DIN rail power supply, 24 Vdc, 1 A cBlproG0 RS232 programming cablecBlUSB00 USB programming cable (included with SFCRM200) G3FIlM10 Pack of 10 protective films for G303 G3rS0000 2 Port RS232/485 (isolated) option card G3pBdp00 Profibus option card G3dN0000 DeviceNet option cardG3cN0000CANopen option cardComes complete with panel gasket, 2 user legendable key sheets, template for panel cutout, hardware packet for mounting unit into panel, terminal block for connecting power and operator’s manual.Ordering Example: G303M000, operator interface, SFCRM200, crimson programming software, manual and USB cable. PSDR0100, power supply.G303M000, shown smaller than actual size.The G303 Operator Interface Terminal combines unique capabilities normally expected from high-end units with a very affordable price. The G303 is able tocommunicate with many different types of hardware using high-speed RS232/422/485 communications ports and Ethernet 10 Base T/100 Base-TX communications. Inaddition, the G303 features USB for fast downloads of configuration files and access to trending and data logging. A CompactFlash socket is provided so that Flash cards can be used to collect your trending and data logging information as well as to store larger configuration files. In addition to accessing and controlling of external resources, the G303 allows a user to easily view and enter information. The unit uses a Liquid Crystal Display (LCD) module, which is easily readable in both indoor and outdoor applications. Users can enter data through the front panel 32-button keypad that has user identifiable keys.。
omron 3G3JV简易小型变频器 说明书
3G3IV-PLF320KA 3G3IV-PLF310KB
型号 3G3JV-PRS2010J 3G3JV-PRS2020J 3G3JV-PRS2030J 3G3JV-PRS1010J 3G3JV-PRS1020J 3G3JV-PRS1010J 3G3JV-PRS3005J 3G3JV-PRS3010J 3G3JV-PRS3020J
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规格 3G3JV-A2001、A2002、AB001、AB002用 3G3JV-A2004、AB004用 3G3JV-A2007、AB007用 3G3JV-A2015、AB015用 3G3JV-A2022用 3G3JV-A2037用 3G3JV-A4002、A4004、A4007用 3G3JV-A4007用 3G3JV-A4015用 3G3JV-A4022用 3G3JV-A4037用 3G3JV-A2001、A2002、A2004、A2007用 3G3JV-A2015用 3G3JV-A2022用 3G3JV-A2037用 3G3JV-AB001、AB002用 3G3JV-AB004用 3G3JV-AB007用 3G3JV-AB015用 3G3JV-A4002、A4004、A4007用 3G3JV-A4015、A4022用 3G3JV-A4037用 3G3JV-A2001、A2002、A2004、A2007、
OMRON变频器说明书(3G3JV中文版)版
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欧姆龙变频器常用参数
欧姆龙变频器常用参数 Company Document number:WTUT-WT88Y-W8BBGB-BWYTT-19998
变频器参数说明MX2型号参数 3G3JZ型号
A001=2改为1 ===2 频率来源0--10V A002=2改为1 ===1 运转指令为外部A003=基频 ==1 自由停止
A004=最高频率 ==100 最高频率
A061=最高频率限制 ==100 最大电压频率A0041=0自动转矩 ==330 最大电压
A0042=转矩 = 频率上限
A0043 = 频率下限
A0082=400 ==15 加速时间
A0045=80%为输出电压限制 ==15 减速时间B37=0为参数打开
B38==201 显示输入频率 == 载波频率
B83=载波频率为6-7
B84=2 B180=1 为出厂设置 ==1 再启动搜索B091=1停车方式 ==2 再启动时间
B050=2再启动
B088=2再启动搜索频率 =多段速1 100
H003=电机功率 =多段速2 010
H004=电机极数 =多段速3 110
D13为电压监控 =多段速4 001
D02为电流监控
F004为正反转
转台为1HZ=转
A021=多段速1 0001
A022=多段速1 0010
A023=多段速1 0011
A024=多段速1 0100
调速器型号WTH118-1A 2W 10K
滚轮电机电压为330V
台达
多段速 0100 =1运转指令来源0为操作器多段速 1100 =1 停车方式自由运转
多段速 0010
最高频率
最高频率限制=110%
加速时间
减速时间。
OMRONPLCEView触摸屏编程使用说明书
OMRONPLCEView触摸屏编程使用说明书DMP-300F型中小型水电站触摸式机组自动化屏(OMRON PLC +EView 触摸屏)编程使用说明书文件编号:HN/QF.13-0002-004版本号: A发放编号:长沙华能自控集团有限公司目录1.OMRON CJ1M系列PLC介绍 (2)1.1.CPU单元(使用CJ1M-CPU13) (2)1.2.通信单元(使用CJ1W-SCU41) (8)1.3.I/O单元 (8)1.4.模块安装及地址分配 (8)2.OMRON PLC常用编程指令 (9)2.1. 梯形图指令 (9)2.2. 位元(B IT)控制指令 (9)2.3. 结束指令(END) (10)2.4. 定时器和计数器指令 (10)2.5. 数据移位元元元指令 (10)2.6. 数据传送指令 (11)2.7. 数据比较指令 (12)2.8. 数据转换指令 (13)2.9. BCD码运算指令 (14)2.10. 二进制元运算指令 (16)2.11. 逻辑指令 (17)2.12. 子程序和中断控制指令 (18)2.13. 串行通信指令(PMCR) (19)3.OMRON PLC程序编辑软件 (19)3.1. CX-P ROGRAMMER中对PLC的初始化设置 (19)3.2. PLC设定 (20)3.3. CX-P ROGRAMMER中对PLC的联机操作 (20)3.4. 程序中各个子程序的用途定义 (21)4.OMRON PLC通信程序编辑软件 (21)4.1. 与PLC通信单元箱地址设定 (22)4.2. 4-2PLC协议编制软件(CX-P ROTOCOL)通信口设定 (22)4.3. PLC协议编制软件使用简单说明 (22)4.4. PLC与单元箱通信协议注意事项: (23)5.EASYVIEW触摸屏程序编辑软件 (23)5.1. 与OMRON PLC连接参数设定 (23)5.2. 一般参数设定(通过“编辑――系统参数的一般页进行设定) (23)5.3. 组件功能说明 (24)5.4. 触摸屏程序的下载 (27)5.5. 触摸屏程序调试 (27)6.水机屏PLC程序资料寄存器分配 (28)6.1. PLC内部时钟存放区(D0~D6) (28)6.2. PLC事故资料中转区(D10~D19) (28)6.3. 发生的水机操作、故障、事故报警个数存放区(D20): (28)6.4. 水机状态(遥信量)存放区(D21~D30): (28)6.5. PLC事故存放区:(D4000~D5999)共存放200条事故资料 (28)6.6. PLC与单元箱通信辅助中间寄存器: (28)6.7. PLC与单元通信中断判断辅助寄存器: (29)6.8. PLC与HMI(触摸屏)间固定使用寄存器: (29)6.9. 触摸屏及后台操作定义(无特殊要求) (31)7.触摸屏模拟量显示设定 (31)8.OMRON PLC通信协议 (33)8.1. PLC使用 (33)8.2. 对时使用 (34)8.3. 单元箱使用 (34)8.4. PLC通信协议接线图 (37)1.OMRON CJ1M系列PLC介绍当前水机自动化屏大多使用OMRON CJ1M系列PLC,这种PLC为模块式,而且没有底板。
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USER’S MANUAL SYSDRIVE 3G3EV SERIES(Standard Models)Compact Low-noise InverterThank you for choosing this SYSDRIVE 3G3EV-series product. Proper use and handling of the product will ensure proper product performance, will length product life, and may prevent possible accidents.Please read this manual thoroughly and handle and operate the product with care.NOTICE1.This manual describes the functions of the product and relations with otherproducts. You should assume that anything not described in this manual is not possible.2.Although care has been given in documenting the product, please contactyour OMRON representative if you have any suggestions on improving this manual.3.The product contains potentially dangerous parts under the cover. Do notattempt to open the cover under any circumstances. Doing so may result in injury or death and may damage the product. Never attempt to repair or dis-assemble the product.4.We recommend that you add the following precautions to any instructionmanuals you prepare for the system into which the product is being installed.S Precautions on the dangers of high-voltage equipment.S Precautions on touching the terminals of the product even after power has been turned off. (These terminals are live even with the power turned off.)5.Specifications and functions may be changed without notice in order to im-prove product performance.Items to Check Before UnpackingCheck the following items before removing the product from the package: S Has the correct product been delivered (i.e., the correct model number and specifications)?S Has the product been damaged in shipping?S Are any screws or bolts loose?1-1Items to be Checked when Unpacking1-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-2Precautions1-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Chapter 2. Overview2-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-1Features2-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-2Component Names2-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Chapter 3. Design3-13-1Installation3-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-1-1Outside/Mounting Dimensions3-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-1-2Installation Conditions3-5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-2Wiring3-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-2-1Terminal Blocks3-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-2-2Wiring Around the Main Circuit3-113-2-3Wiring Control Circuit Terminals3-18. . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . Chapter 4. Preparing for Operation4-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-1Preparation Procedure4-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-2Using the Digital Operator4-3. . . . . . . . . . . . . . . . . . . . . . .4-2-1Name and Function of Each Component4-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-2-2Outline of Operation4-54-2-3Setting Constants4-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-3Test Run4-25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-3-1Checking Wiring4-25. . . . . . . . . . . . . .4-3-2Turning Power On and Checking Indicator Display4-25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-3-3Initializing Constants4-25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-3-4Setting a V/f Pattern4-254-3-5Setting Rated Motor Amperage4-26. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-3-6Setting the Reference Frequency4-26. . . . . . . . . . . . . . . .4-3-7Operating the Inverter with the Digital Operator4-26. . . . . . . . . . . . . . . . . . . .4-3-8Checking Output Frequency and Amperage4-26. . . . . . . . . . . . . . . . . . .4-3-9Checking Operation during Reverse Rotation4-26. . . . . . . . . .4-3-10Checking Operation with Mechanical System Connected4-264-3-11Checking Operation Performed by Controller4-26. . . . . . . . . . . . . . . . . . .i5-1Protective and Diagnostic Functions5-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-2Troubleshooting5-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-2-1Constants Fail to Set5-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-2-2Motor Fails to Operate5-8. . . . . . . . . . . . . . . . . . . . . . . .5-2-3Motor Rotates in the Wrong Direction5-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-2-4Motor Deceleration is Too Slow5-105-2-5V ertical-axis Load Drops when Brakes are Applied5-10. . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-2-6Motor Burns5-11. . . . . . . . . . . . . .5-2-7Controller Receives Noise when Inverter is Started5-115-2-8AM Radio Receives Noise when Inverter is Started5-11. . . . . . . . . . . . . .. . . . . .5-2-9Ground Fault Interrupter is Actuated when Inverter is Started5-12. . . . . . . . . . . . . . . . . . . . . . . . . . . .5-2-10Mechanical System Makes Noise5-12. . . . . . . . . . . . . . . . . . . . .5-2-11Motor Does Not Operate with EF Warning5-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-3Maintenance and Inspection5-13. . . . . . . . . . . . . . . . . . . . . . . . . . .Chapter 6. Specifications6-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-1Specifications of Main Unit6-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . .Chapter 7. Appendix A7-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7-1Notes on Using Inverter for Motor7-2. . . . . . . . . . . . . . . . . . . . . . . . . . .7-2Frequency Reference by Amperage Input7-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7-3List of Product Models7-7iiChapter 1Getting Started1-1Items to be Checked when Unpacking1-2Precautions1-21-1Items to be Checked when Unpacking H Checking the ProductOn delivery, always check that the delivered product is the SYSDRIVE 3G3EV Inverter that you ordered.Should you find any problems with the product, immediately contact your nearest local sales representative.DChecking the NameplateInverter modelInput specifications Output specificationsD Checking the ModelSpecial SpecificationSpecificationsMaximum applicable motor capacityVoltage classInstallation typeSeries name: 3G3EV SeriesSpecificationsMaximum Applicable Motor CapacityNote The figures in parentheses indi-cate capacities for 400-VAC classmodels.1-3Voltage ClassInstallation Type/OptionSpecial SpecificationD Checking for DamageCheck the overall appearance and check for damage or scratches resulting from trans-portation.H Checking Accessories Note that this manual is the only accessory provided with the 3G3EV (Standard Model).Set screws and other necessary parts must be prepared by customers.1-2PrecautionsTo ensure safe operation of the 3G3EV, note the following items:H Always Hold the Heat Sink During Removal.When moving the 3G3EV, always hold the heat sink (aluminum portion on the rear of the Unit).Heat sinkH Watch Out for Residual Voltage On Charged PortionsAfter the power is turned off, residual voltage remains in the capacitor inside the Inverter. Therefore, touching terminals immediately after turning the power off may cause an electrical shock.If an inspection or some other task is to be performed, always wait at least one minute from the time all indicators on the front panel go off.(Note that this warning is applicable whenever you perform any task after turning the main circuit off.)H Do Not Remove the Digital Operator When the Main Circuit is Still On.Always turn the main circuit off before removing the digital operator.Removing the digital operator with the main circuit ON may cause an electrical shock and damage the equipment.H Do Not Modify Wiring or Check Signals When the Main Circuit is On.Always turn the main circuit off before modifying wiring or checking signals. Touching terminals while the main circuit is on may cause an electrical shock and dam-age the equipment.H Do Not Conduct a Dielectric Strength Test.Because the 3G3EV Inverter is an electronic control unit using semiconductor, never conduct a dielectric strength test or an insulation resistance test for the control circuit.H Modify Constant Settings Correctly.Always modify the constant settings according to the procedures described in this manual.1-4Chapter 2Overview2-1Features2-2Component Names2-22-1Features H Easy to UseD Basic Constants Displayed On IndicatorsConstants for basic operations such as frequency setting and acceleration/deceleration time setting are displayed on dedicated indicators. Therefore, constant numbers can be confirmed easily.D Minimum Constant Setting ItemsConstant setting items have been minimized to enable even first-time users to set constants easily.H Easy to InstallD Very Small and LightweightThe 3G3EV Inverter is approximately half the size of our Low-noise General-purpose Inverters in terms of volume and weight percentage. This improves space efficiency and operating efficiency (including easier removal).D Optional DIN TrackAn optional DIN track is available. This DIN track enables the user to mount the 3G3EV Inverter on the DIN track with a one-touch operation.OverviewChapter 2Overview Chapter 2 H Easy to WireD Easy Wiring without Having to Open the Front CoverThis Inverter can be wired just by opening the terminal block cover.D Separate Input and Output Terminal BlocksPower input terminals are located in the upper section, while motor output terminals are in the lower section. In this way, the input and output terminal blocks are separated ac-cording to the contactors, so incorrect wiring can be prevented.D Soldering No Longer NecessaryNo connector means no soldering.H Easy to OperateD Switching the Operation Mode with a One-touch OperationFor example, after a test run is performed using the Digital Operator, it can be easily switched to a production run using control terminals with a one-touch operation.D Checking a Test Run with Various MonitorsOutput frequency, output current, and the direction of motor rotation appear in the dis-play section of the Digital Operator, so the mechanical system can be easily monitored during a test run.H Low NoiseAn insulated gate bipolar transistor (IGBT) power element has been adopted to elimi-nate metallic noise.H High-torque Operation Even in Low Speed RangeA torque rate of 150% can be achieved even in a low speed range where output frequen-cy is only 3 Hz. Thus, acceleration time can be reduced.H Various Input Power SuppliesA 400-VAC-class Inverter has been newly added to the 3G3EV Series to cope with vari-ous power supplies.•Three-phase 200-VAC input:0.1 to 1.5 kW•Single/Three-phase 200-VAC input:0.1 to 1.5 kW•Three-phase 400-VAC input:0.2 to 1.5 kW2-32-42-2Component NamesH Main UnitMain Circuit Terminals (Input)Power input terminals Braking resistor connection terminalsRun indicator Alarm indicatorControl circuit terminals(output)Ground terminalMain Circuit Terminals (Output)Motor output terminalsDigital OperatorControl circuitterminals (input)MAMBMCSF SR S1SC FS FR FCH Digital OperatorDisplaysectionOperationkeysMode Key Increment KeyRUN KeyData display sectionMonitor item indicatorsIn-service item indicators (green indicators)These items can be monitored or set evenduring operation.Stopped item indicators (red indicators)These items can be set only when theInverter is stopped.Constant item indicatorsEnter KeyDecrement KeySTOP/RESET Key2-5Chapter 3Design3-1Installation3-2Wiring3-1Installation3-1-1Outside/Mounting DimensionsNote All dimensions are in millimeters.H3G3EV-A2001(-j) to 3G3EV-A2004(-j) (0.1 to 0.4 kW):Three-phase 200-VAC InputH3G3EV-AB001(-j) to 3G3EV-AB002(-j) (0.1 to 0.2 kW): Single/Three-phase 200-VAC Input4.5 dia.Note1.For the 3G3EV-A2001(-j), 3G3EV-A2002(-j), and 3G3EV-AB001(-j), a U-shaped notch (4.5 mm wide) is provided instead of the upper mounting hole (4.5 mm in diameter).Note2.Install the Inverter with two M4 bolts.3-2D Three-phase 200-VAC Input Model3-3H3G3EV-A2007(-j) to 3G3EV-A2015(-j) (0.75 to 1.5 kW): Three-phase 200-VAC Input3G3EV-AB004(-j) to 3G3EV-AB015(-j) (0.4 to 1.5 kW): Single/Three-phase 200-VAC Input3G3EV-A4002(-j) to 3G3EV-A4015(-j) (0.2 to 1.5 kW): Three-phase 400-VAC InputTwo, 4.5 dia.Note Install the Inverter with four M4 bolts.3-43-5D Three-phase 400-VAC Input Model3-1-2Installation ConditionsH Installation Site•Install the Inverter under the following conditions:Ambient temperature for operation: –10°C to 50°C Humidity: 90% RH or less (non-condensing)•Install the Inverter in a clean location free from oil mist and dust. Alternatively, install it in a totally enclosed panel that is completely shielded from suspended dust.•When installing or operating the Inverter, always take special care so that metal pow-der, oil, water, or other foreign matter do not get in the Inverter.•Do not install the Inverter on inflammables such as wood.H Direction of Installation•Install the Inverter on a vertical surface so that the characters on the nameplate are oriented upward.H Installation Space•When installing the Inverter, always provide the following installation space to allow normal heat dissipation from the Inverter:W= 30 mm min.100 mm min.100 mm min.AirSideAirI n v e r t e rI n v e r t e rI n v e r t e rH Ambient Temperature Control•To enhance operation reliability, the Inverter should be installed in an environment free from extreme temperature rises.•If the Inverter is installed in an enclosed environment such as a box, use a cooling fan or air conditioner to maintain the internal air temperature below 50°C.•The surface temperature of the Inverter may reach 30°C higher than the ambient tem-perature. Therefore, keep all thermally susceptible devices and wires away from the Inverter.H Protecting the Inverter from Foreign Matter during Installation •Place a cover over the Inverter to shield it from metal powder produced by drilling dur-ing installation.(Upon completion of installation, always remove the cover from the Inverter. Other-wise, ventilation will be affected, causing the invert to overheat.)3-63-73-2Wiring3-2-1Terminal BlocksH Name of Each Terminal BlockMain Circuit Terminals (Input)Power input terminalsBraking resistorconnection terminalsControl circuit terminals (output)Ground terminal Main circuit terminals (output)Motor Output Terminals (Output)Control circuit terminals (input)MAMBMCSF SR S1SC FS FRFCH Main Circuit TerminalsNote Before shipping, a resin plate is attached to each braking resistor connection ter-minal to prevent incorrect wiring.When connecting a braking resistor, always remove the resin plates with a pair of long-nose pliers.Terminal block screw (M3.5)Crimpterminal6.2 mm max.H Control Circuit TerminalsD Input Terminals (On Right-hand Side)No external power supply is required because a built-in power supply is provided.24 VDC, 8 mA(See note3)(See note 3)Input impedanceIn ut im edanceNote1.Constant No. 06 (n06) is used to set this function. This constant is factory-set to “fault reset.”Note2.FR can be switched to an amperage input terminal (4 to 20 mA) by setting the internal DIP switch and constant No. 02 (operation mode selection). For details, refer to 7-2 Frequency Reference by Amperage Input.Note3.The circuit for a 400-VAC-class Inverter is as shown below.SFSRS1 to S3SCD Output Terminals (On Left-hand Side)30 VDC250 VACNote Constant No. 09 (n09) is used to set the function. This constant is factory set to “operation in progress.”H Standard Connection DiagramMolded-case circuitbreaker (MCCB) Forward/StopReverse/StopMulti-function input Sequence input common Frequencyreferencerheostat(2 kΩ,1/4 W min.)Braking resistor (option)Multi-function contact output(Contact a)(Contact b)CommonL1N/L2L3Power supply:Three-phase, 200 to 230 VAC, 50/60 HzThree-phase, 380 to 460 VAC, 50/60 HzNote1.If a 3G3EV-AB jjj is used in single-phase input mode, single-phase 200 to 240 VAC power with a frequency of 50/60 Hz must be input between terminals R and S.Note2.For the 3-wire sequence, refer to the wiring on page 4-12.Note3.The input sequence power is built in.3-2-2Wiring Around the Main CircuitSystem reliability and noise resistance are affected by the wiring methodused. Therefore, always follow the instructions given below when connect-ing the Inverter to peripheral devices and other parts.H Wire Size and Molded-Case Circuit Breaker to be UsedFor the main circuit and ground, always use 600-V polyvinyl chloride (PVC) cables. If the cable is long and may cause voltage drops, increase the wire size according to the cable length.Note Tighten the M3.5 terminal screw to the torque of 0.8 N S m.Determining the Wire SizeDetermine the wire size for the main circuit so that line voltage drop is within 2% of the rated voltage.Line voltage drop V D is calculated as follows:V D (V) = p3 x wire resistance (Ω/km) x wire length (m) x amperage (A) x 10–3H Wiring on the Input Side of Main CircuitD Installing a Molded-case Circuit BreakerAlways connect the power input terminals (R, S, and T) and power supply via a molded-case circuit breaker. Power must be supplied instantaneously. Unstable power startup will not start the Inverter.D Installing a Ground Fault InterrupterIf a ground fault interrupter is to be connected to the wire on the primary side (R, S, and T) of the main circuit, use either of the following interrupters to prevent malfunctions:•Ground fault interrupter with a sensitivity amperage of 200 mA or more and with an operating time of 0.1 second or more•Ground fault interrupter with high-frequency countermeasures (for Inverter)D Installing a Magnetic ContactorThis Inverter can be used without a magnetic contactor (MC) on the power supply side. If the power supply for the main circuit is to be shut off because of the sequence, a mag-netic contactor can be used instead of a molded-case circuit breaker.However, when a magnetic contactor is installed on the primary side of the main circuit to forcibly stop a load, note that regenerative braking does not work and the load coasts to a stop.•A load can be started and stopped by opening and closing the magnetic contactor on the primary side. Note, however, that frequently opening and closing the magnetic contactor may cause the Inverter to break down.•When the Inverter is operated with a Digital Operator, automatic operation cannot be performed after recovery from a power interruption.D Connecting Input Power Supply to the Terminal BlockBecause the phase sequence of input power supply is irrelevant to the phase sequence (R, S, T) of the terminal block, input power supply can be connected to any terminal on the terminal block.D Installing an AC ReactorIf the Inverter is connected to a large-capacity power transformer (600 kW or more) or the phase advance capacitor is switched, an excessive peak current may flow through the input power circuit, causing the converter unit to break down. T o prevent this, install an optional AC reactor on the input side of the Inverter. This also improves the power factor on the power supply side.D Installing a Surge AbsorberAlways use a surge absorber or diode for the inductive loads to be connected to the Inverter. These inductive loads include magnetic contactors, electromagnetic relays, solenoid valves, solenoids, and magnetic brakes.D Wiring of Braking Resistor/Braking Resistor UnitWhen using an Inverter for loads with a large inertia or for vertical axis loads, regenera-tive energy will be fed back.If the regenerative energy exceeds the Inverter capacity, overvoltage will be detected in the main circuit. In such a case, use a Braking Resistor or Braking Resistor Unit. Note Be sure to create a sequence that will turn OFF the Inverter power supply when resistor overheating occurs. When using a Braking Resistor, be sure to install a thermal relay to detect resistor overheating. When using a Braking Resistor Unit, use an error output contact. Otherwise, a fire may occur.Note Do not use a Resistor whose resistance is below the minimum connected resis-tance. Otherwise, the Inverter will be damaged.D Installing a Noise Filter on the Power Supply SideInstall a noise filter to eliminate noise transmitted between the power line and the Inverter.Wiring Example 13G3IV-PHF3G3EVPower supplyNoise filterSYSMAC,etc.Other controllersNote Use a special-purpose noise filter for Inverters.Wiring Example 23G3EVGeneral-purpose noise filterPower supplySYSMAC,etc.Other controllers3G3EVPower supplyGeneral-purpose noise filterSYSMAC,etc.Other controllersNote Do not use a general-purpose noise filter.H Wiring on the Output Side of Main CircuitD Connecting the Terminal Block to the LoadConnect output terminals U, V, and W to motor lead wires U, V, and W, respectively.D Never Connect Power Supply to Output TerminalsCaution Never connect a power supply to output terminals U, V, and W.If voltage is applied to the output terminals, the internal mechanism of the Inverter will be damaged.D Never Short or Ground the Output TerminalsCaution If the output terminals are touched with bare hands or the output wires comeinto contact with the Inverter casing, an electric shock or grounding will occur.This is extremely hazardous. Also, be careful not to short the output wires.D Do Not Use a Phase Advance Capacitor or Noise FilterNever connect a phase advance capacitor or LC/RC noise filter to the output circuit. Do-ing so may result in damage to the Inverter or cause other parts to burn.D Do Not Use an Electromagnetic SwitchDo not connect an electromagnetic switch or magnetic contactor to the output circuit. If a load is connected to the Inverter during operation, an inrush current will actuate the overcurrent protective circuit in the Inverter.D Installing a Thermal RelayThis Inverter has an electronic thermal protection function to protect the motor from overheating. If, however, more than one motor is operated with one Inverter or a multi-polar motor is used, always install a thermal relay (THR) between the Inverter and the motor and set to “0.0” (no thermal protection) for constant No. 31 (“THR” indicator).In this case, program the sequence so that the magnetic contactor on the input side of the main circuit is turned off by the contact of the thermal relay.D Installing a Noise Filter on the Output SideConnect a noise filter to the output side of the Inverter to reduce radio noise and induc-tion noise.3G3EV3G3IV-PLFPower supplyNoise filterSignal lineControllerInduction noise Radio noise AM radioInduction Noise:Electromagnetic induction generates noise on the signal line, causingthe controller to malfunction.Radio Noise:Electromagnetic waves from the Inverter and cables cause thebroadcasting radio receiver to make noise.D How to Prevent Induction NoiseAs described above, a noise filter can be used to prevent induction noise from being generated on the output side. Alternatively, cables can be routed through a grounded metal pipe to prevent induction noise. Keeping the metal pipe at least 30 cm away from the signal line considerably reduces induction noise.3G3EV30 cm min.MCCBMetal pipePower supplySignal lineControllerD How to Prevent Radio NoiseRadio noise is generated from the Inverter as well as the input and output lines. To re-duce radio noise, install noise filters on both input and output sides, and also install the Inverter in a totally enclosed steel box.The cable between the Inverter and the motor should be as short as possible.3G3EVPower supplySteel boxNoise filterNoise filterMetal pipeD Cable Length between Inverter and MotorIf the cable between the Inverter and the motor is long, the high-frequency leakage cur-rent will increase, causing the Inverter output current to increase as well. This may affect peripheral devices. T o prevent this, adjust the carrier frequency (set in n37) as shown in the table below.H Ground Wiring•Always use a ground terminal with the following ground resistance.200-VAC Class:100 Ω or less400-VAC Class:10 Ω or less•For 400-VAC-class models that conform to EC Directives, also connect to the neutral of the power supply.•Do not share the ground wire with other devices such as a welder or power tool.•Always use a ground wire that complies with technical standards on electrical equip-ment. Route the ground wire so that the total length is as short as possible.•When using more than one Inverter, be careful not to loop the ground wire.3-2-3Wiring Control Circuit TerminalsThe control signal line must be 50 m or less and must be separated fromthe power line. If frequency references are input externally, use a twisted-pair shielded line.H Wiring Sequence Input/Output TerminalsWire the sequence input terminals (SF, SR, S1, and SC) and the multi-function contact output terminals (MA, MB, and MC) as described below.D Wiring Method•Wire each terminal as follows:a)Loosen the terminal screw with a thin-slotted screwdriver.b)Insert the wire from underneath the terminal block.c)Tighten the terminal screw firmly.•Always separate the control signal line from the main circuit cables and other power cables.Thin-slotted screwdriverLength of stripped portion: Approx. 5.5 mmWireControl circuitterminal blockDo not solder this portion. (Otherwise, faulty contact may result.)H Wiring Frequency Reference Input TerminalsIf frequency references are input using a D/A unit (digital-to-analog converter) or exter-nal power supply, wire the frequency reference input terminals (FR and FC) as de-scribed below.3-18。