LENZE8200简明调试及典型接线

基于B车发舱伺服滑台的LENZE9400驱动器调试总结一、Application Parmeters1、设置传动比，“单击”，跳转如下画面。

传动比为11.378，需要化为整数2、设置电机基本参数，“单击”跳转如下画面1）、根据电机类型，选择电机类型。

此处选择伺服异步电机 2）、“单击”，设置电机参数，画面如下：123选择“From Driver ”,会自动获取电机基本参数 3） 、设置外围编码器的参数.“单击”，画面如下3.1）、编码器类型：此处选X8（绝对值编码器） 3.2）也选择绝对值编码213、根据齿轮大小，传动比。

设置相关参数。

“单击”，画面跳转如下1）、Feed constant: 传动轮转动一圈所走得距离。

本项目为527.1mm；根据齿轮数和齿间距可得出该值。

2）、Reference velocity: 计算所得的线速度。

可以设计的极限速度比较。

二者应该一样。

3）、Unit：选择单位mm4）、Motor reference speed :电机额定转速。

二、FB editor1 2 31、输入（控制字1W，定位模式速度值1W，速度模式速度值1W，目标位2W，定位模式加速度1W）以及一些常量1)、控制字。

PLC将控制字以整字的形式发给驱动器是，发的值是一一对应的，如发L#08，驱动器收到的就是L#08。

但是如果PLC将控制字以位的形式发给驱动器，则需要注意将高8位和低8位相反。

例如控制字PLC地址为QW40，则Q40.0对应驱动器bBit8,Q40.7对应bBit15；而Q41.0对应bBit0，Q41.7对应bBit7。

bBit0：SwitchOn 驱动器没有反馈Ready信号，则需要一直发此信号。

bBit1：预留bBit2：QSP 快停。

PLC发此信号，电机快速停止bBit3：速度模式正转bBit4：速度模式反转bBit5：预留bBit6：预留bBit7：故障复位（故障清楚）bBit8：预留 bBit9：预留 bBit10：预留bBit11：定位模式使能 ，走定位模式，必须发信号bBit12：定位模式启动 ，启动定位模式，在bBit11为真的前提下，电机开始运动。

伦茨（Lenze）变频器8200Vector系列使用说明注：本说明适用于梳棉机FA231A所使用 Lenze E82EV系列变频器包括内容:1.标准接线及安装1.1 ４００Ｖ控制器的主电源接线1.2 电机接线1.3符合ＥＭＣ标准的安装1.4控制端子接线及说明2. 用操作面板进行参数设定2.1访问,设定所有参数2.2拷贝参数到操作面板2.3从操作面板复制参数到变频器2.4 输出转速的在线调整--用操作面板输入频率(hz)与其他给定值相加3.重要参数代码说明3.1 C0014代码可设置控制模式3.2 电机数据的输入/自动检测(C0087;C0088;C0089;C0090;C0091;C0084;C0092;C0148)3.3 JOG固定频率给定值(C0037,C0038,C0039)3.4 给定值选择(C0001)3.5 模拟输入给定的调整(C0026;C0027)3.6 PTC电机温度监控(C0119)3.7 数字输入信号配置(C0007)3.8 最小输出频率(C0010)3.9 最大输出频率(C0011)3.10 主加速时间(C0012)3.11主减速时间(C0013)3.12快停减速时间(C0105)3.13数字输入信号E1-E6电平反相(C0114)3.14 模拟量输入范围设定（C0034）3.15电流极限设定（C0022,C0023）4.故障诊断及排除4.1运行状态显示4.2故障查询5. 梳棉机FA231A变频器参数设定表5.1 E82EV222S4B参数设定表5.2 E82EV751S4B参数设定表6.变频器调试程序表7.产品维护,保养要点1.标准接线及安装1.1 ４００Ｖ控制器的主电源接线1.2 电机接线见上图注:ＢＲ１，ＢＲ２外部制动电阻Ｔ１，Ｔ２电机温度监控ＰＴＣ热敏电阻或热继电器1.3符合ＥＭＣ标准的安装注:将控制线及电源线与电机电缆分开使用低寄生电容电缆。

每单位长度电容值：●芯／芯≤７５ｐＦ／ｍ●芯／屏蔽层≤１５０ｐＦ／ｍＥＭＣ电缆密封垫按铭牌进行电机接线使用表面导电的安装板以尽可能大的导电表面将电缆屏蔽层连到ＰＥ上。

782031C N Lenze伦茨橾作手册Global Drive8200/8210系列变频器功率范围0.37…11KW怎样用这些操作指令…对特定的功能，可先参考表中的内容，然后根据索引可看到详细的操作说明为了查阅方便操作指南中用了不同的符号，并在重要的条款中做了加黑处理这个符号给出方便操作信息注意!尽可能避免损坏设备注意!操作时小心人身安全Lenze 1本技术说明用于带有以下名牌的设备8201 E.lx.lx 8203 E.lx.lx 8211 E.Ox.lx 8213 E.Ox.lx 8202 E.lx.lx 8204 E.lx.lx 82l2 E.Ox.lx 82l4 E.0x.lx82l5 E.Ox.lx 82l7 E.Ox.lx 82ll E.lx.2x 82l3 E.lx.2x 82l5 E.lx.2x 82l7 E.lx.2x 82O2E.lx.lx.YOO282l6 E.Ox.lx82l8 E.Ox.lx82l2 E.lx.2x82l4 E.lx.2x82l6 E.lx.2x82l8 E.lx.2x82O2 E.2x.lx.YOO2 装配深度减少的改型变频器类型IP2O封装硬件版本号和索引号软件版本和索引号改型编辑：O3.ll.l994 打印日期 O5.l2.l994 改变软件版本号2x 13.02.199507.08.19952 Lenze目录设计和安装8200/8210系列的特点 (6)1.变频器的数据 (7)1.1通用数据 (7)1.2与型号有关的数据 (8)1.3制造商声明 (9)1.3.1直接应用 (9)2.尺寸和安装 (10)2.1安装 (10)2.2外型尺寸 (11)3.01 (14)3.18200系列变频器的主电路连接 (14)3.28210系列的主电路连接 (15)3.3控制接线 (16)3.4控制输入和输出 (17)3.5并联直流母线运行 (18)3.5.1多台变频器的并联 (18)3.5.2直流电压供电 (18)3.6射频干扰的抑制和屏蔽 (19)4.23 (21)4.1操作面板8201BB (21)4.2操作面板的引出端子的8272BB (22)4.3设定电位器 (23)4.4制动斩波器 (23)4.5主电抗器 (25)4.6熔断器 (26)4.7抑制射频干扰滤波器 (27)4.8电机滤波器 (28)4.9电机电压滤波器 (29)4.10附件 (30)编程:1.开关初始化 (31)2 (32)3.显示 (34)3.1运行状态显示 (34)3.2操作面板8201BB (34)3.3显示值 (36)3.4启动显示 (36)4.基本控制操作 (37)4.1操作编程结构 (37)Lenze 34.2参数代码的设定和改变 (37)4.3操作模式 (40)4.4参数集 (40)5.8200变频器的编程 (41)5.1基本设定 (41)5.1.1最小输出频率f mn (41)5.1.2最大频率设定f_ (41)5.1.3加、减速时间设定 (42)5.1.4V/f 额定频率 (42)5.1.5V/f特性和提升电压设定V_ (43)5.2给定值选择 (44)5.2.1模拟量给定值选择 (44)5.2.2通过LCD操作面板给定 (44)5.2.3寸动频率JOG (45)5.2.4模拟电机电位器 (45)5.3UVWXYZ (46)5.3.1控制器使能(RFR) (46)5.3.2改变旋转方向(CW/CCW) (46)5.3.3快速停止(QSP) (47)5.3.4DC 制动(DC INJ) (47)5.3.5改变参数集(PAR) (47)5.3.6跳闸设定(TRIP) (48)5.3.7端子配置一览 (48)5.3.8继电器输出 (49)5.3.9模拟量输出 (50)5.4扩展设置 (51)5.4.1起动选择/瞬间重起动电路 (51)5.4.2最大电流限制 (52)5.4.3I2.t 监视 (53)5.4.4滑差补偿 (53)5.4.5跳闸复位 (54)5.4.6运行时间表 (54)5.4.7软件版本和变频器型号 (54)5.58200系列代码表 (59)6.8210系列变频器编程 (59)6.1基本设置 (59)6.1.1最小输出频率f；^ (59)6.1.2最大输出频率fj/4 (60)6.1.3加速和减速时间 (61)6.1.4V/f额定频率t (62)6.1.5控制方式 (62)6.1.6提升电压V/i n设定 (62)6.2设定值选择 (62)6.2.1模拟量给定值选择 (63)6.2.2通过操作面板给定 (64)4Lenze6.2.3寸动频率(JOG) (64)6.2.4电机电位器 (64)6.3控制端子功能 (65)6.3.1控制器使能(RFR) (65)6.3.2改变旋转方向(CW/CCW) (66)6.3.3快停(QSP) (66)6.3.4直流制动(DC INJ) (66)6.3.5参数集(TRIP)改变 (67)6.3.6跳闸设定 (68)6.3.7端子配置一览 (69)6.3.8继电器输出 (70)6.3.9模拟量输出 (70)6.4扩展设定 (71)6.4.1起动选择/瞬间重起动 (72)6.4.)最大电流限制 (72)6.4.3电机数据输人 (73)6.4.4I2.t 监控 (73)6.4.5滑差补偿 (74)6.4.6斩波频率 (74)6.4.7跳闸复位 (74)6.4.8运行时间表 (74)6.4.9软件版本和变频器型号 (75)6.4.10运行速度显示 (75)6.58210系列代码表 (76)维护1.监视报警 (81)2.故障报警 (81)2.1主电路连接中错误指示 (81)2.2操作中的故障报警 (81)3.故障确定 (83)3.1电机不转 (83)3.2LED绿灯闪烁 (83)3.3LED红灯闪烁(每0.4秒） (83)3.4LED红灯闪烁(每秒） (83)3.5LED 不亮 (83)3.6电机运行不平稳 (83)3.7电机的电流过大 (84)Lenze 58200/8210系列的特点230V电压等级的8200系列包括4种型号的变频器。

使用说明书INSTRUCTION MANUAL7PIZ-1939-C01AO 警告：易爆环境（气体、粉尘以及烟雾等）加油或者停车于加油站时，请关闭车载电台。

O 注意事项请遵守以下注意事项，以避免发生火灾、人身伤害以及损坏车载电台：·建议车载电台使用率为发射1分钟，接收4分钟。

长时间发射或在高功率模式下连续使用将造成本机背面发热.·无论在任何情况下请不要拆装本机。

·请勿让车载电台受到长时间的阳光直射，也不要将车载电台放在加热装置附近。

·请勿将车载电台放在极度多尘、潮湿以及溅水之处，也不要将它放在不平稳的表面上。

·如果发现从车载电台发出异常气味或者冒烟，请立即关闭电源。

目录1.开箱和装置检查 (1)2.熟悉本机 (3)3.基本操作..............................................................................5 1.1随机附件1、开箱和装置检查请在使用本机前，详细检查包装盒内的主机及下表列出的随机附件，如果发现有任何物品丢失或损坏，请立即与经销商联系。

1.2 准备工作1.2.1 电源线的连接＊　＊　＊　车载电台1.2.2 车载电台的安装车载电台车载＊ 车载电台＊ 车载车载电台＊ 将天线及电源线与车载电台连接。

＊ ＊车载电台首先，查找一下隔热板上是否有可以方便穿过电源线的孔。

如果没有可用的孔，请使用合适的钻头在隔热板上钻孔，并装上橡胶护孔环。

然后，将电源线穿过隔热板，从车内引入发动机室。

将红色导线连接在蓄电池的正极端子，将黑色导线连接在蓄电池的负极端子。

最后，将剩余导线绕成环状并加以固定。

注意：请保持电源线在车内有充分的松弛量，以便可以在连接电源的状态下可方便地拆装维修。

警告：为了保证乘车人员的安全,请使用固定支架牢固地安装,使得发生碰撞时电台不会松脱.使用固定支架作为样板，在仪表板上画出位置进行钻孔，然后使用4颗M5*16的自攻螺丝将固定支架安装固定。

伦茨（Lenze）变频器8200Vector系列使用说明注：本说明适用于梳棉机FA231A所使用Lenze E82EV系列变频器包括内容:1.标准接线及安装1.1 ４００Ｖ控制器的主电源接线1.2 电机接线1.3符合ＥＭＣ标准的安装1.4控制端子接线及说明2. 用操作面板进行参数设定2.1访问,设定所有参数2.2拷贝参数到操作面板2.3从操作面板复制参数到变频器2.4 输出转速的在线调整--用操作面板输入频率(hz)与其他给定值相加3.重要参数代码说明3.1 C0014代码可设置控制模式3.2 电机数据的输入/自动检测(C0087;C0088;C0089;C0090;C0091;C0084;C0092;C0148)3.3 JOG固定频率给定值(C0037,C0038,C0039)3.4 给定值选择(C0001)3.5 模拟输入给定的调整(C0026;C0027)3.6 PTC电机温度监控(C0119)3.7 数字输入信号配置(C0007)3.8 最小输出频率(C0010)3.9 最大输出频率(C0011)3.10 主加速时间(C0012)3.11主减速时间(C0013)3.12快停减速时间(C0105)3.13数字输入信号E1-E6电平反相(C0114)3.14 模拟量输入范围设定（C0034）3.15电流极限设定（C0022,C0023）4.故障诊断及排除4.1运行状态显示4.2故障查询5. 梳棉机FA231A变频器参数设定表5.1 E82EV222S4B参数设定表5.2 E82EV751S4B参数设定表6.变频器调试程序表7.产品维护,保养要点1.标准接线及安装1.1 ４００Ｖ控制器的主电源接线1.2 电机接线见上图注:ＢＲ１，ＢＲ２外部制动电阻Ｔ１，Ｔ２电机温度监控ＰＴＣ热敏电阻或热继电器1.3符合ＥＭＣ标准的安装注:将控制线及电源线与电机电缆分开使用低寄生电容电缆。

每单位长度电容值：●芯／芯≤７５ｐＦ／ｍ●芯／屏蔽层≤１５０ｐＦ／ｍＥＭＣ电缆密封垫按铭牌进行电机接线使用表面导电的安装板以尽可能大的导电表面将电缆屏蔽层连到ＰＥ上。

Renishaw 对刀仪及测头安装手册Roy.Hong 2015/5/26一、FANUC 系统1、接线图对刀仪MI8-4：地蓝红24V0VX4.72、参数修改接线方法一（M17开启测头，M18关闭测头）：接线方法二（M103开启/关闭测头）：3、检测信号a 、方法一接线完毕后，观察机床信号状态X0004状态栏，手动点触对刀仪平台，X4.7状态出现0-1变化，则说明有信号，反之，无信号。

检测测头信号时，需先将测头打开（M17/M18或者M103），手触碰探针，X4.3状态出现0-1变化，则说明有信号，反之，无信号。

b 、方法二方法一是观察状态栏的变化，真正运行对刀仪及测头是通过G31移动，所以可以通过在MDI 模式下，运行G91G31X-10.F10.;，看到机床工作台位置在移动，手触碰对刀仪平台，位置移动结束，即程序立即结束，则说明有信号，反之，无信号。

再检测测头信号时，需先将测头打开（M17/M18或者M103），MDI 模式下，运行G91G31P2X-10.F10.;，看到机床工作台位置在移动，手触碰测针，位置移动结束，即程序立即结束，则说明有信号，反之，无信号。

4、标定对刀仪及测头5、运行对刀程序及测头探测程序程序此处略。

注意：此种接线方法下，要注意对刀仪程序是使用的G31跳转移动，测头使用的是G31P2跳转移动，所以需要检查所对应的程序是否正确，如果不正确，需要整体替换！二、Brother 系统1、接线图Ⅰ、Brother 2Aa 、单独对刀仪MI8-4：b 、单独测头OMI 接受器：c 、单独测头OMI-2接受器：地蓝红24V 0V11号口d 、对刀仪及测头OMI 接受器：f 、对刀仪及测头OMI-2接受器：地 蓝 红24V 0V11号口 OMI 青色线机床108号口地蓝红24V 0V11号口 OMI-2青色线机床108号口Ⅱ、Brother 2Da 、单独对刀仪MI8-4：b 、单独测头OMI 接受器：地蓝红24V 0V11号口c 、单独测头OMI-2接受器：d 、对刀仪及测头OMI 接受器：地蓝红24V 0V11号口 OMI 青色线机床108号口f 、对刀仪及测头OMI-2接受器：Ⅱ、Brother S500a 、单独对刀仪MI8-4：地蓝红24V 0V14号口 地蓝红24V 0V11号口 OMI-2青色线机床108号口b 、单独测头OMI 接受器：c 、单独测头OMI-2接受器：24V 0V14号口 机床108号口f 、对刀仪及测头OMI-2接受器：地蓝红24V 0V14号口 OMI-2青色线机床108号口2、参数修改Brother 2A/2D/S500（外部接口）3、信号检测在MDI 模式下，运行G91G132X-10.F10.;，看到机床工作台位置在移动，手触碰对刀仪平台，位置移动结束，即程序立即结束，则说明有信号，反之，无信号。

总结记录触摸频率外部设备的接线过程及注意事项下载提示：该文档是本店铺精心编制而成的，希望大家下载后，能够帮助大家解决实际问题。

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Information for the operator of the machine/systemEDK82MVXXX !N;,Global Drive 8200motecFrequency inverter0.25...7.5kWÄ!N ;,äThis documentation applies to8200motec inverters as of versionE82MV xxx_x B001XX Vx2xTypePower(e.g.551=55×101W=0,55kW)(e.g.752=75×102W=7,5kW)Voltage class2=230V4=400V/500VHardware versionSoftware versionã2002Lenze AGThis documentation contains all information the machine operator require in orderto operate the drive controller of the8200motec series installed in yourmachine/system.If you do not change the content,you are allowed to use the information in thisdocumentation for your purposes without contacting Lenze.The information necessary for the project planning of a machine/system can be found inthe Mounting Instructions and Operating Instructions for the8200motec frequencyinverters.The Mounting Instructions are included in the scope of delivery,the OperatingInstructions can be ordered at your Lenze representative.The downloading of the Lenze documentation can be made in the internet as an AdobeAcrobat file:http://www.lenze.de1.003/2002TD14Safety informationLenzecontrollers3lEDK82MVXXX EN 1.01Safety information1.1General safety and application notes for Lenze controllers(according to Low-Voltage Directive 73/23/EEC)1.GeneralLenze controllers (frequency inverters,servo inverters,DC controllers)can carry a voltage or parts of the controllers can rotate during operation.Surfaces can be hot.If the required cover is removed,the controllers are used inappropriately or installed or operated incorrectly,severe damage to persons or material assets can occur.For more information please see the documentation.All operations concerning transport,installation,and commissioning as well as maintenance must be carried out by qualified,skilled personnel (IEC 364and CENELEC HD 384or DIN VDE 0100and IEC report 664or DIN VDE 0110and national regulations for the prevention of accidents must be observed).According to this basic safety information qualified,skilled personnel are persons who are familiar with the assembly,installation,commissioning,and operation of the product and who have the qualifications necessary for their occupation.2.Intended useDrive controllers are components which are designed for the installation into electrical systems or machinery.They are not to be used as domestic appliances,but only for industrial purposes according to EN 61000-3-2.The documentation contains information about the compliance of the limit values with EN 61000-3-2.When installing controllers into machines,commissioning of the drive controllers (i.e.the starting of operation as directed)is prohibited until it is proven that the machine corresponds to the regulations of the EC Directive 98/37/EG (Machinery Directive);EN 60204(VDE 0113)must be observed.Commissioning (i.e.starting of operation as directed)is only allowed when there is compliance with the EMC Directive (89/336/EEC).The drive controllers meet the requirements of the Low-Voltage Directive 73/23/EEC.The harmonised standards EN 50178/DIN VDE 0160apply to the controllers.The technical data as well as the connection conditions can be obtained from the nameplate and the documentation.The instructions given must be strictly observed.Warning:Controllers are products with restricted availability according to EN 61800-3.These products can cause interferences in residential premises.If controllers are used in residential premises,corresponding measures are required.3.Transport,storageThe notes on transport,storage and appropriate handling must be observed.Climatic conditions according to EN 50178apply.4.InstallationThe controllers must be installed and cooled according to the regulations given in the corresponding Instructions.Ensure careful handling and avoid mechanical overload.Do not bend any components and do not change the insulation distances during transport and storage.Electronic components and contacts must not be touched.Controllers contain electrostatically sensitive components which can easily be damaged by inappropriate handling.Do not damage or destroy any electrical components since this could mean hazards for your health!5.Electrical connectionWhen working on live controllers,the valid national regulations for the prevention of accidents (e.g.VBG 4)must be observed.The electrical installation must be carried out in compliance with the corresponding regulations (e.g.cable cross-sections,fuses,PE connection).Additional notes and information can be obtained from the corresponding Instructions.The Instructions contain notes concerning wiring according to EMC regulations (shielding,earthing,filters and cable routing).These notes must also be observed when using CE-marked controllers.The compliance with limit values required by the EMC legislation is the responsibility of the manufacturer of the machine or system.6.OperationIf necessary,systems including controllers must be equipped with additional monitoring and protection devices according to the applying safety regulations (e.g.regulation for technical equipment,regulation for the prevention of accidents).The controller can be adapted to your application.Please observe the corresponding information given in the Instructions.After a controller has been disconnected from the voltage supply,all live components and power connections must not be touched immediately because capacitors can still be charged.Please observe the corresponding stickers on the controller.All protection covers and doors must be shut during operation.Note for UL-approved systems with integrated controllers:UL warnings are notes which only apply to UL systems.The Instructions give UL-related information.7.Safe standstillThe variant V004of 9300and 9300vector,the variant Bx4x of 8200vector controller and the axis controller ECSXA064support the function ”Safe standstill”,protection against unexpected start,according to the requirements of Annex I No.1.2.7of the EC Directive ”Machinery”98/37/EG,DIN EN 954-1category 3and DIN EN 1037.Please observe the notes on the function ”Safe standstill”given in the corresponding Instructions.8.Maintenance and servicePlease observe the Instructions given by the manufacturer.Please observe the product-specific safety and application notes in these Instructions.Safety informationLenze low-voltagemachinery4lEDK82MVXXX EN 1.01.2General safety and application notes for Lenze low-voltage machinery(in conformity with the Low-Voltage Directive 73/23/EEC)1.GeneralLow-voltage machines have dangerous,live and rotating parts as well as possibly hot surfaces.All operations serving transport,connection,commissioning and maintenance are to be carried out by skilled,responsible technical personnel (observe EN 50110-1(VDE 0105-100);IEC 60364).Improper handling cancause severe injuries or damages.Synchronous machines induce voltages at open terminals during operation.2.Application as directedThese low-voltage machines are intended for industrial and commercial installations.They comply with the harmonized standards of the series EN 60034(VDE O53O).Their use in hazardous areas is prohibited unless they are expressly intended for such use (follow additional instructions).The enclosures ≤IP23are by no means intended for outdoor use.Air-cooled designs are rated for ambient temperatures between -15°C and -10°C and +40°C and altitudes ≤1000m a.m.s.l.,from -20°C to +40°C without brake or with spring-operated brake,with separate ventilation or self ventilation,from -15°C to +40°C with permanent magnet brake and from -10°C to +40°C with separate fan.Check indications on the nameplate and if they are different,observe them.The conditions on site must correspond to all nameplate data.Low-voltage machines are components for the installation into machines as defined in the Machinery Directive 98/37/missioning is prohibited until the conformity of the end product with this Directive has been established (follow a.o.EN 60204-1).The integrated brakes cannot be used as safety brakes.It cannot be ruled out that factors which cannot be influenced,such as oil ingression because of a defective A-side shaft seal,cause a torque reduction.3.Transport,storageThe forwarder must be informed directly after receipt of the goods about all damages or deficiencies;if necessary,commissioning must be stopped.Tighten screwed-in ring bolts before transport.They are designed for the weight of the low-voltage machine,do not apply extra loads.If necessary,use suitable and adequately dimensioned means of transport (e.g.rope guides).Remove the shipping brace before commissioning.Reuse it for further transports.For storage of low-voltage machines ensure a dry,dust-free and low-vibration (v rms ≤0.2mm/s)environment (danger of bearing damage at rest).Measure the insulation resistance before commissioning.If the values are ≤1k Ωper volt of rated voltage,dry the winding.4.InstallationEnsure an even surface,solid foot or flange mounting and exact alignment if a direct clutch is connected.Avoid resonances with the rotational frequency and double mains frequency which may be caused by the assembly.Turn rotor by hand,listen for unusual slipping noises.Check the direction of rotation when the clutch is not active (observe section 5).Use appropriate tools to mount or remove belt pulleys and clutches (heat generation!)and cover them with a touch guard.Impermissible belt tensions must be avoided (technical list).The machines are half-key balanced.The clutch must be half-key balanced,too.The visibly protruding part of the key must be removed.If required,provide pipe connections.Mounting positions with shaft end at top must be protected with a cover which avoids the ingression of foreign particles into the fan.Free circulation of the cooling air must be ensured.The exhaust air -also the exhaust air of other machines next to the drive system -must not be immediately taken in again.5.Electrical connectionAll operations must be carried out only by qualified and skilled personnel when the low-voltage machine is at standstill and when the machine is de-energized and protected against unintentional restart.This also applies to auxiliary circuits (e.g.brake,encoder,separate fan).Check safe isolation from the supply!If the tolerances in EN 60034-1;IEC 34(VDE 0530-1)-voltage ±5%,frequency ±2%,waveform,symmetry -are exceeded,more heat will be generated and the electromagnetic compatibility will be influenced.Observe the indications on the nameplate,operating notes,and the connection diagram in the terminal box.The connection must ensure a continuous and safe electrical supply (no loose wire ends);use appropriate cable terminals.The connection to the PE conductor must be safe.The plug-in connector must be screwed up tightly (to stop).The clearances between bare,live parts and earth must not fall below:8mm at V rated ≤550V,10mm at V rated ≤725V,14mm at V rated ≤1000V.The terminal box must be clean and dry;foreign particles,dirt and moisture affect operation.All unused cable entries and the box itself must be sealed against dust and water.For the trial run without output elements,lock the key.Check brake operation before the commissioning of low-voltage machines with brakes.6.OperationVibration severities v rms ≤3.5mm/s (P rated ≤15kW)or 4.5mm/s (P rated >15kW)are acceptable when the clutch is activated.If deviations from normal operation occur,e.g.increased temperature,noise,vibration,find the cause and,if necessary,contact the manufacturer.Switch-off the machine in problematic situations.If the drive is exposed to dirt,clean it regularly.Do not switch-off the protection devices,not even for trial runs.Integrated temperature sensors do not provide full protection.If necessary,limit the maximum current.Connect the function blocks to the option switch-off after several seconds of operation at I >I rated ,especially if blocking may occur.Shaft seals and bearings have a limited service life.Regrease the bearings using the relubrication facility while the low-voltage machine is running.Observe the saponification number.If the grease drain hole is sealed with a plug (IP54drive end;IP23drive end and non-drive end),remove the plug before commissioning.Seal the bore holes with grease.Replace the prelubricated bearings (2Z-bearings)after approx.10.000h -20.000h,at the latest however after 3-4years.Observe the manufacturer’s instructions.Safety informationResidual hazards,Layout of the safetyinstructions5lEDK82MVXXX EN 1.01.3Residual hazardsProtection of persons•Before working on the motec or opening the housing,check that no voltage is applied.Wait for at least 3minutes,since after mains switch-offthe power terminals U,V,W;BR0,BR1,BR2andthe pins of the FIF interface remain live.–After you have opened the motec check whether the power terminals L1,L2,L3;U,V,W;BR0,BR1,BR2,relay outputs K11,K12,K14and pins of the FIF interface are not live any more.–Even if the motec is separated from the mains,the relay outputs K11,K12,K14can remain live!•If you use the not fail-safe function “Selection of direction of rotation”via the digital signal DCTRL1-CW/CCW (C0007=-0-...-13-,C0410/3≠255):–In the event of an open circuit or failure of the control voltage,the drive can change its direction of rotation.•If you use the function ”Flying-restart circuit”(C0142=-2-,-3-)with machines with a low moment of inertia and a minimum friction:–After controller enable in standstill,the motor can start for a short time or change its direction of rotation for a short time.•The motec heatsink temperature is >60°C:–Direct skin contact with the heatsink results in burnings.Controller protection•8200motec 3...7,5kW (E82MV302_4B,E82MV402_4B,E82MV552_4B,E82MV752_4B):–Cyclic connection and disconnection of the controller supply voltage atL1,L2,L3canexceed and destroy the input current limit!–In case of cyclic mains switching over a longer period of time three minutes have to pass between two starting operations!•Depending on the controller settings,the connected motor can be overheated:–at,for instance,longer DC-braking operations.–at longer operation of self-ventilated motors at low speed.Overspeeds •Drives can reach dangerous overspeeds (e.g.setting of inappropriately high field frequencies):–The controllers do not offer any protection against these operating conditions.For this,use additional components.1.4Layout of the safety informationAll safety information given in these Operating Instructions have the same layout:Signal word (characterises the severity of danger)Note (describes the danger and gives information how to avoid it)Parameter settingParameter setting using thekeypad6lEDK82MVXXX EN 1.02Parameter setting2.1Parameter setting using the keypadThe keypad is available as accessory.A full description can be obtained from the information included in the keypad delivery.2.1.1Menu structureAll parameters for controller setting or monitoring are saved in codes under the menus User and all .The codes have numbers 6and are abbreviated in the text with a ”C”before the number.Some codes store the parameters in numerical “subcodes”7to ensure that parameter setting is clearly structured (example:C0517menu User ).•The menu User–is active after every mains switching or keypad attachment during operation.–contains all codes for a standard application with linear V/f characteristic control (Lenze setting).–can be modified as required under C0517.•The menu all–contains all codes.–shows a list of all codes in ascending order.•The change between User and all and how to change parameters in the codes is describedon the following pages.Parameter settingParameter setting using thekeypad7lEDK82MVXXX EN 1.02.1.2The menu U s e r -The 10most important drive parametersAfter mains switching or plugging in the keypad during operation,the 10codes defined to be the most important in the user menu User (Code C0517)are available immediately.In default setting the menu contains User all codes required for a standard application with linear V/f characteristic control.CodeNameLenze settingC0050Output frequencyDisplay:Output frequency without slip compensation selection -0-Standard I/OX3/8:0...5V /0...10V /0...20mAC0034Setpoint range0Application I/OX3/1U:0...5V /0 (10V)X3/2U:0...5V /0 (10V)-0-E4E3E2E1C0007Fixed configuration of digital inputsCW/CCW DCB JOG2/3JOG1/3CW/CCW rotation DC-injection brakeSelection of fixed setpoints C0010Minimum output frequency 0.00Hz C0011Maximum output frequency 50.00Hz C0012Acceleration time main setpoint 5.00sec C0013Deceleration time main setpoint 5.00sec C0015V/f rated frequency 50.00HzC0016U min boostdepending on the inverter type C0002Parameter set transfer/reset see code tableTip!Use C0002”Parameter set transfer”to easily transfer configurations from one controller to the other or to reset the controller to Lenze settings.Parameter settingParameter setting using thekeypad8lEDK82MVXXX EN 1.02.1.3Change between the menus U S E r and A L L2.1.4Parameter change in menusStep KeysDisplayNoteExample1.Controller inhibit s dc Only necessary if you want to change codes marked with “[]”in the code table,e.g.[C0002].All other parameters can be changed during operation.2.Set parameters wx fReduce C00123.pz XXXX Select code0012(acceleration time)500100s4.x k 001For codes without subcodes:Jump to i (and then 6.)from5.00s to 1.005.yz XXX Select subcode6.x i 5.00s7.yz XXXXX Set parameters1.00s8.v STOreAcknowledge entry if p blinkingwAcknowledge entry if p is not blinking;v is not active 9.Restart the ”loop”at 2.to set other parameters.广州科沃—工控维修的１２０ ｗｗｗ．ｇｚｋｏｗｏ．ｃｏｍTroubleshooting and fault eliminationMaloperation of thedrive9lEDK82MVXXX EN 1.03Troubleshooting and fault elimination3.1Maloperation of the driveFaultCauseRemedyMotor does not rotateDC-bus voltage too low(Red LED is blinking every 0.4s;keypad display LU )Check mains voltageController inhibited(Green LED is blinking,keypad display:c )Remove the controller inhibit,controller inhibit can be set through several sources Automatic start inhibited (C0142=0or 2)LOW-HIGH edge at X3/28If necessary,correct start condition (C0142)DC injection brake active (DCB)Deactivate DC-injection brakeMechanical motor brake is not releasedManual or electrical release of mechanical motor brake Quick stop (QSP)active (keypad display:c )Remove quick stop Setpoint =0Setpoint selectionJOG setpoint activated and JOG frequency =0JOG setpoint selection (C0037...C0039)Active faultEliminate faultWrong parameter set activeChange to correct parameter set via terminal Control mode C0014=-4-,-5-,but no motor parameter identificationMotor parameter identification (C0148)Under C0410several functions,which exclude each other,are assigned to the same signal source.Correct configuration in C0410Use internal voltage source X3/20for function modules Standard-I/O,INTERBUS,PROFIBUS-DP or LECOM-B (RS485):Bridge between X3/7and X3/39is missingJumper terminalsdoes not Defective motor cableCheck motor cableMotor Maximum current too low (C0022,C0023)Adaptation to applicationrotate smoothly Motor underexcited or overexcitedCheck parameter setting (C0015,C0016,C0014)C0084,C0087,C0088,C0089,C0090,C0091and/or C0092are not adapted to the motor dataManual adaptation or identification of motor parameters (C0148)Setting of C0016too high Correct setting Current Setting of C0015too lowCorrect settingconsumption of motor too high C0084,C0087,C0088,C0089,C0090,C0091and/or C0092are not adapted tothe motor dataManual adaptation or identification of motor parameters (C0148)Motor rotates,setpoints are “0”With the function j of the keypad a setpoint has been selected.Set the setpoint to ”0”by C0140=0Motor parameter Motor too small compared with rated power identificationstops with error LP1DC brake active via terminal Unacceptable drive response with vector controlvarious Vector control optimisationTroubleshooting and fault eliminationErrormessages10lEDK82MVXXX EN 1.03.2LEDs at the controller (operating status display)LED Operating statusgreen red on off Controller enabledonon Mains switched on and automatic start inhibited blinking offController inhibitedoff blinking every second Fault active,check under C0161offblinking every 0.4seconds Undervoltage switch-offfast blinkingoffMotor parameter identification3.3Fault messages at the keypad or in the parameter setting program Global Drive ControlDisplayFaultCause Remedy Keypad PC 1)noer0No fault --ccr71System faultStrong interferences on control cables Shield control cablesa y Ground or earth loops in the wiringce0a 61Communication error to AIF Transmission of control commands via AIF is interferedPlug the communication module firmly into the hand terminalce1a 62Communciation error at CAN-IN1with sync control CAN-IN1object receives faulty data or communication interrupted•Plug-in connection for bus module óCheck FIF •Check transmitter•Increase monitoring time under C0357/1if necessary ce2a 63Communication error to CAN-IN2CAN-IN2object receives faulty data or communication is interrupted •Plug-in connection for bus module óCheck FIF •Check transmitter•Increase monitoring time under C0357/2if necessary ce3a 64Communication error to CAN-IN1with event or time controlCAN-IN1object receives faulty data or communication interrupted •Plug-in connection for bus module óCheck FIF •Check transmitter•Increase monitoring time under C0357/3if necessary ce4a 65BUS-OFF(many communication errors occurred)Controller has received too many faulty telegrams via system bus and has been disconnected from the bus •Check whether the bus terminator is available •Check screen contact of the cables •Check PE connection•Check the bus load,if necessary,reduce the baud rate ce5a66CAN Time-OutWith remote parameter setting via system bus (C0370):Slave does not munication monitoring time exceeded•Check wiring of the system bus •Check system bus configurationOperation with module on FIF:Internal errorContact Lenze ce6a 67Function module system bus (CAN)is set to ”Warning”or ”BUS-OFF”(only generated if C0128=1)CAN controller sends ”Warning”or ”BUS-OFF”•Check whether the bus is terminated•Check screen contact of the cables •Check PE connection•Check the bus load,if necessary,reduce the baud rate EEr a 91External error (TRIP-SET)A digital signal used for the function TRIP set has been activated.Check external encoder H05a 105Internal faultContact Lenzeid1a 140Faulty parameter identification Motor not connectedConnect motorLP1a 32Error in motor phase(only generated if C0597=1)•Failure of one/several motor phase(s)•Motor current too low•Check motor cables•V boost C t t ith di d tLP1182Error in motor phase(only generated if C0597=2)min •Connect motor with corresponding power or adapt motor under C0599LU 1030DC-bus undervoltage Mains voltage too low Check mains voltage cgDC-bus voltage too lowCheck supply module400V controller connected to 240V mainsConnect the controller to the appropriate mains voltageTroubleshooting and fault eliminationErrormessages11lEDK82MVXXX EN 1.0Display RemedyCauseFault Keypad PC 1)OC111short-circuit short-circuit•Find reason for short circuit;check motor cables •Check brake resistora Excessive capacitive charging current of the motor cableUse shorter/low-capacity motor cables OC212Earth faultGrounded motor phaseCheck motor,check motor cableaExcessive capacitive charging current of the motor cableUse shorter/low-capacity motor cablesEarth fault detection can be deactivated for checking OC313Overload inverter during acceleration or short circuitAcceleration time (C0012)too short •Increase acceleration time •Check drive selection aDefective motor cable Check wiring Interturn fault in the motorCheck motorOC4a 14Overload controller during deceleration Deceleration time too short (C0013)•Allow longer deceleration time•Check the external brake resistor selection OC5a 15Controller overload in stationary operationLong and frequent overload periodsCheck drive selection16Motor overload (I 2x t overload)Motor thermally overloaded by for instanceOC6a ()•impermissible continuous current•Check drive selection•frequent or too long acceleration processes•Check setting under C0120OH a 50Heatsink temperature >+85°CAmbient temperature T amb >+60°C •Allow controller to cool down and ensure betterventilation•Check ambient temperatureOH -Heatsink temperature >+80Heat sink very dirtyClean heat sinke p °CImpermissible high current or frequent and long acceleration processes•Check drive selection•Check load,if necessary replace sluggish,defective bearingsOH353PTC monitoring (TRIP)(only generated if C0119=1Motor too hot because of impermissibly high current or frequent and long acceleration processes Check drive selection a (y g or 4)PTC not connected Connect PTC or switch-off monitoring (C0585=3)OH4a 54Controller overtemperatureController inside too hot•Reduce controller load •Improve cooling•Check fan in the controller OH51203PTC monitoring (only generated if C0119=2)Motor too hot because of impermissibly highcurrent or frequent and long acceleration processes Check drive selection(y g or 5)PTC not connected Connect PTC or switch-off monitoring (C0585=3)OU 1020DC-bus overvoltage Mains voltage too high Check voltage supplycgBraking operation•Prolong deceleration times.•For operation with external brake resistor:–Check dimensioning,supply and connection of brake resistor–Increase the deceleration timesEarth leakage on the motor sideCheck motor cable and motor for earth fault (disconnect motor from inverter)Pr a 75Faulty parameter transfer when using the keypadAll parameter sets are faulty It is absolutely necessary to repeat the data transfer or load the factory setting before the controller is enabled.Pr1a 72Faulty transmission of PAR1when using the keypad PAR1is faulty.Pr2a 73Faulty transmission of PAR2when using the keypad PAR2is faulty.Pr3a 77Faulty transmission of PAR3when using the keypad PAR3is faulty.Pr4a 78Faulty transmission of PAR4when using the keypad PAR4is faulty.Pr5a 79Internal faultContact LenzePt5a81Time error during parameter set transferData flow interrupted by keypad or PC,e.g.keypad disconnected during data transmission.It is absolutely necessary to repeat the data transfer or load the factory setting before the controller is enabled.。

目录第一章 HD8200G一体化蓝牙静态GPS测量系统简介 (2)§1.1静态GPS测量概述 (2)§1.2系统作业模式 (2)§1.2.1 静态相对定位模式 (2)§1.2.2后差分动态相对定位模式 (3)§1.3 GPS网的技术设计 (3)第二章HD8200G一体化机主机硬件操作 (5)§2．1一体化机面板按键图解 (5)§2．2连接端口介绍 (5)第三章蓝牙遥控器操作步骤 (6)§3．1 遥控器概述 (6)§3.1.1 遥控器的外形(HDR-3型) (6)§3.1.2 遥控器的基本操作 (6)§3.2 HD8200G操作流程 (6)§3.2.1 静态操作流程 (6)§3.2.2 静态后差分操作流程 (9)§3.3 其他信息 (13)第四章静态数据下载 (15)§5.1 静态GPS数据处理 (18)§5.1.1 新建项目 (18)§5.1.2 导入数据 (19)§5.1.3处理基线 (21)§5.1.4平差前的设置 (22)§5.1.5进行网平差 (24)§5.1.6成果输出 (24)§5.2 动态后差分数据解算 (26)§5.2.1动态后差分数据的录入 (26)§5.2.2 动态数据处理设置 (27)§5.2.3动态后差分数据解算 (28)§5.2.4生成处理报告 (30)§5.2.5得到测量结果 (31)第六章 HD8200G型接收机使用注意事项 (32)第一章 HD8200G一体化蓝牙静态GPS测量系统简介§1.1静态GPS测量概述GPS测量工作与经典大地测量工作相类似，按其性质可分为外业和内业两大部分。

其中：外业工作主要包括选点(即观测站址的选择)、建立观测标志、野外观测作业以及成果质量检核等；内业工作主要包括GPS测量的技术设计、测后数据处理以及技术总结等。