MDX61B0005-5A3-4-00 MDX61B0008-5A3-4-00 MDX61B0011-5A3-4-00 MDX61B0014-5A3-4-00 MDX61B0015-5A3-4-00 MDX61B0022-5A3-4-00 MDX61B0030-5A3-4-00 MDX61B0040-5A3-4-00 MDX61B0055-5A3-4-00 MDX61B0075-5A3-4-00 MDX61B0110-5A3-4-00
MDX61B0005-5A3-4-0T MDX61B0008-5A3-4-0T MDX61B0011-5A3-4-0T MDX61B0014-5A3-4-0T MDX61B0015-5A3-4-0T MDX61B0022-5A3-4-0T MDX61B0030-5A3-4-0T MDX61B0040-5A3-4-0T MDX61B0055-5A3-4-0T MDX61B0075-5A3-4-0T MDX61B0110-5A3-4-0T
【MOVIDRIVE?和MOVIDRIVE?compact变频器】
设计 ——SEW MOVIDRIVE?和MOVIDRIVE? compact变频器功率范围已达到132kW,在动态响应和控制精度上达到更高的需求。
变频器安装在开关柜内。
变频器可以并排无间隙安装,结构紧凑,充分利用空间。
VFC ——VFC设计(电压矢量控制)可以带或不带速度反馈,能够达到异步驱动的高控制精度。
CFC—— CFC控制(电流矢量控制)的MOVIDRIVE?变频器可以满足更高的控制精度和动态响应,使用MOVIDRIVE?变频器的CFC控制可以使异步驱动达到伺服驱动的效果。
四象限运行 ——在MOVIDRIVE?和MOVDRIVE? compact变频器的标准设计中集成了制动斩波器。变频器配合适当的制动电阻和电源能量回馈装置可以实现四象限运行。
EMC ——只要按照EMC安装要求,这类变频器满足EN 50 081(抗辐射干扰等级A或B)和EN 50 082EMC标准。所以需要执行EMC安装准则。
操作和信息—— 友好的PC操作方式和信息理念提供了快捷的系统启动和便捷的服务。
【SEW变频器MD_特性】
·输入端子由光电耦合器隔离保护。
·高的静态转子扭矩和运行扭矩,由-VFC控制在0.5Hz以上,至少150%额定扭矩。-CFC控制,在整个调速范围内,至少160%的额定扭矩。
·工厂设定可以适用于适配的SEW电机或自动实现最优化控制。
·MOVITOOLS ?一用于界面(win95/98/NT),方便的参数设定、操作,过程数据显示。操作系统的应用软件。
·可适用的功能如:提升功能。
· IPOS位控功能为标准配置,无需附件。
·变频器和电机的全方位保护,可以防止短路、过载、接地及过热。
·另外附加的功能如fieldbus接口,同步运行控制和绝对值编码器接口(不适用于MOVIDRIVE? compact)。
· MOVDRIVE? compact有内置PROFIBUS接口的版本。
·具有北美CUL认证。
MOVIDRIVE? 【MDF型】功能 不加编码器变频器通过 VFC控制异步电机
电源电压 :3×380...500V 、3×230V
推荐电机功率 :1.5...132 kW 、1.5...30 kW
额定电流 :4.0...250A 、7.3...95A
MOVIDRIVE? 【MDV型】 功能VFC控制或选择CFC控制实现异步伺服运行
电源电压 :3×380...500V、 3×230V
推荐电机功率: 1.5...75/132 kW 、 1.5...30 kW
额定电流 :4.0...250A 、7.3...95A
MOVIDRIVE?【MDS型】 功能 变频器用于高动态响应的同步伺服电机
电源电压 3×380... 500 V
额定电流 4.0... 250 A
MOVIDRIVE?【MDR型】 功能 再生功率模块
电源电压 3×380... 500 V
推荐电机功率 37... 75/90 kW
【MOVITRAC LT系列变频器】
设计 SEW MOVITRAC LT 变频器功率范围达到 160KW ,适用于几乎所有的开环驱动应用,可对 SEW 和非 SEW 交流减速电机进行变频调速。
操作及显示 ——完备的功能、简便的操作,出厂值适用于大多数应用场合。可通过红外接口进行快速、准确的参数设定及操作。
EMC SEW MOVITRAC LT 变频器是按高标准电磁要求设计的,满足 EN610004(A 级 )EMC 标准。
特性 ·产品系列
-110-115V , 1/2 . 1 1/2 HP
-220-240V , 0.37KW-90KW( 单相或三相 )
-380-480V , 0.75KW-160KW
-480-525V , 18.5-160KW
·单一驱动器的观念降低了库存,培训及技术支持等费用
·外型紧凑
·可以应用于恶劣的工业场合,环境温度等级50 度
·机械和电气安装简单
·操作简单,性能优越,易于应用
·初始化简单,出厂设定值几乎适用于大多数应用。只有14个基本参数进行
调整( 最多40个)
·内置制动斩波器 ( 非 S1 工作制 ) 可选
·内置的 RFI 滤波器和进线扼流圈 (s4 , 5&6)
·电机电流和转速指示
· 32KHZ 开关频率,电机低噪声运行
·通过参数 P-00 进行故障诊断
· 150 %过载运行 60S(175 %过载运行 2S)
·单相变频器高功率 ( 到 45KW)
·光纤通讯
MOVITRAC LTS标准型
功率 0.75...160 KW
推荐电机功率 O.37 KW...160 KW
电源电压
3×220...240 V
3×380...480 V
MOVITRAC LTP矢量型
功率 0.75...160 KW
推荐电机功率 O.37 KW...160 KW
电源电压
0.75...160 KW V
3×380...480 V
MOVITRAC LTE型
功率 0.37...4.0 KW
推荐电机功率 O.37 KW...4.0 KW
电源电压
3×220...240 V (O.37...2.2 KW)
3×380...480 V (O.75...4.0 KW)
故障代码 故障现象/类型 故障原因 解决对策 01 Over-current • Short circuit on output • Output switching • Motor too large • Defective output stage • Ramp limit (P138) switched off • Rectify the short circuit • Only switch when output stage inhibited • Connect a smaller motor • Call SEW Service for advice if the fault still cannot be reset • Ramp limit (P138 = YES) 03 Ground fault • Ground fault on motor • Ground fault on inverter • Ground fault in the motor lead • Over-current (see F-01) • Replace the motor • Replace the MOVITRAC® 07 • Rectify the ground fault • See F-01 04 Brake chopper • Regenerative power excessive • Braking resistor circuit interrupted • Short circuit in braking resistor circuit • Excessively high braking resistance • Brake chopper defective • Ground fault • Extend deceleration ramps • Check connecting harness for braking resistor • Rectify the short circuit • Check technical data of braking resistor • Replace the MOVITRAC® 07 • Rectify the ground fault 06 Supply system phase failure (only with three-phase inverter) Phase fault Check supply system lead 07 DC-link overvoltage • DC link voltage too high • Ground fault • Extend deceleration ramps • Check connecting harness for braking resistor • Check technical data of braking resistor • Rectify the ground fault 08 Speed monitoring Current controller is operating at the setting limit due to: • mechanical overload • phase failure in supply system • phase failure in motor • Reduce load • Increase delay time setting P501 • Check current limitation • Extend deceleration ramps • Check supply system phases • Check motor feeder and motor Maximum speed for VFC operating mode exceeded • Reduce load • Increase delay time setting P501 • Check current limitation • Extend deceleration ramps • Check supply system phases • Check motor feeder and motor Maximum speed for VFC operating mode exceeded • Reduce maximum speed 10 ILLOP • Incorrect command during running of program • Incorrect conditions during running of program • Function not in inverter / not implemented • Check program • Check program structure • Use another function 11 Overtemperature Thermal overload of inverter • Reduce load and/or ensure adequate cooling • If the braking resistor is integrated in the heat sink: Mount the braking resistor externally 17-24 System fault Inverter electronics disrupted, possibly due to effect of EMC Check ground connections and shields; improve them if necessary. Contact SEW Service for advice if this reoccurs. 25 EEPROM Fault when accessing EEPROM Call up default setting, perform reset and set parameters again. Contact SEW Service for advice if this reoccurs. 26 External terminal Read in external fault signal via programmable input Eliminate specific cause of fault; reprogram terminal if appropriate. 31 TF sensor • Motor too hot, TF sensor has tripped • TF sensor of motor not connected or not connected properly • Connection of MOVITRAC® 07 and TF interrupted on motor • Let motor cool down and reset fault • Check connections/links between MOVITRAC® 07 and TF 32 Index overrun Basic programming rules violated causing internal stack overflow Check and correct user program 34 Ramp timeout The inverter signals F34 if you revoke the enable and the drive exceeds the rapid stop ramp time t13 by a certain time. Extend the rapid stop ramp time 37 Watchdog timer Fault in system software sequence Check ground connections and shields; improve them if necessary. Contact SEW Service for advice if this reoccurs. 38 System software System fault Check ground connections and shields; improve them if necessary. Contact SEW Service for advice if this reoccurs. 43 RS-485 timeout Communication between inverter and PC interrupted Check connection between inverter and PC. 44 Unit utilization Unit utilization (Ixt value) excessive • Reduce power output • Extend ramps • If these points are not possible: Use a larger inverter 45 Initialization Error during initialization Contact SEW Service for advice. 47 System bus timeout Fault during communication via system bus Check system bus connection. 故障代码 故障现象/类型 故障原因 解决对策 77 Control word An external control has attempted to set an invalid automatic mode • Check serial connection to external control • Check write values of external control 81 Start condition Only in "VFC hoist" operating mode: The inverter could not inject the required amount of current into the motor during the pre-magnetization time: • Motor rated power too small in relation to inverter rated power • Motor cable cross section too small • Check connection between inverter and motor • Check startup data and repeat startup if necessary 82 Output open Only in "VFC hoist" operating mode: • Two or all output phases interrupted • Motor rated power too small in relation to inverter rated power Check connection between inverter and PC. 94 EEPROM checksum EEPROM defective Contact SEW Service for advice. 97 Copy fault • Parameter module disconnected during copying process • Switching off/on during copying process Prior to acknowledging the fault: • Load the factory setting or the complete data record from the parameter module