IS200EXIBG1A自动化模块备件
调整载波频率通常可以纠正这个问题。Fn_13:扭矩补偿增益=0至10%根据V/F模式上的B、C电压点(参见F_05描述)和(F_13)增强逆变器输出扭矩模式。注意:当Fn_13=0时,扭矩提升功能被禁用。30 Fn_14:停止方法=0:减速停止1:自由运行停止Fn_15:直流制动时间=0至25.5秒Fn_16:直流制动开始频率=1至10Hz Fn_17:直流制动水平=0至20%如果Fn_14=0当逆变器收到停止指令时,其减速至Fn_16设置的频率,然后在Fn_17中设置输出电压水平;在Fn_15中的持续时间设置之后,逆变器变为完全停止。直流制动频率输出频率减速时间直流制动时间运行命令如果Fn_14=1,逆变器在收到停止指令后立即停止输出。电机进入自由运行状态,完全停止。Fn_18:电机额定电流=50至100%或0至200%(*)(*)仅适用于CPU版本从1.9开始的驱动器(检查功能F_29)1。电子热保护电机的功能(1)电机额定电流=逆变器额定电流x Fn_18 Fn_18=电机额定电流/逆变器额定电流(2)当负载在电机额定电流的100%以内时,操作继续。当负载达到电机额定电流的150%时,操作可能仅持续1分钟。(参考图3中的曲线(1))(3)在启动电子热开关保护电机后,立即切断逆变器。OLI灯将闪烁。要恢复操作,按下复位按钮或激活接线至端子2的外部复位连接。(4) 当电机以低速运行时,散热效率较低。电子热激活水平也降低。(从图3中的曲线(1)变为曲线(2)。根据应用的电机选择适当的Fn_05设置,以达到所需的性能。31 2. 电子热保护逆变器的功能(1)当负载在逆变器额定电流的103%以内时,操作继续。当负载达到逆变器额定电流的150%时,运行将持续1分钟。(参考图3的曲线(1))(2)电子热开关激活后,逆变器立即关闭。OL2灯将闪烁。要恢复操作,按下复位按钮或激活端子2上的外部复位触点。Fn_19:多功能输入端子1功能=1至5或6(*)Fn_20:多功能输出端子2功能=1至6或5(*)(*)仅适用于CPU版本从1.9开始的驱动器(检查功能F_29)1。Fn_19,Fn_0=1:JOG(参考F_09)2。Fn_ 19,Fn_20=2或6多速控制多速控制(仅适用于CPU版本从1.9起的驱动器)F_19=2和F_20=6 TM2 SP1端子TM2 RESET端子输出频率ON OFF(F_08)OFF ON(F_26)ON ON(F_27)F_19=6和F_20=2 TM2 SP1终端TM2 RESET端子输出频率OFF ON OFF(F26)ON ON ON(F28)ON SP3(F_27标准电机100 90 60降额100 90 60衰减降额%20 50(图1)20 60(图2)(图3)100 150电流百分比1.0 32 3。Fn_19,Fn_20=3:外部紧急停止信号激活外部紧急停止时,逆变器继续减速并停止(忽略Fn_14的设置)。逆变器E.S.灯将在停止后闪烁。紧急停止信号停用后,将RUN(运行)开关转到OFF(关闭)位置,然后再转到ON(打开)位置,使其循环。(Fn_10=1)或按下RUN(运转)键(Fn_10=0)。然后,逆变器将恢复运行并重新启动。如果在逆变器停止之前取消了紧急停止信号,逆变器仍将执行紧急停止。4.Fn_19,Fn_0=4:外部基本块(立即关闭)当外部基本块信号激活时,逆变器输出将立即关闭(忽略Fn_14中的设置)并闪烁b.b.基本块信号停用后,将RUN开关关闭,然后再次打开(Fn_10=1)或按下RUN键(Fn_10=0),逆变器将从启动频率重新启动。5.Fn_19,Fn_0=5:逆变器故障时复位。Fn_21:多功能输出端子=1至3 1。Fn_21=1:运行模式信号2。Fn22=2:频率一致信号3。Fn21=3:在CPF、OL1、OL2、OCS、OCA、OCC、Ocd、Ocb、OVC、LVC、OHC激活TM2的故障信号端子1和2。33 Fn_22:反向指令=0:REV命令启用=1:REV指令禁用注意:当Fn_04设置为1(反向)时,Fn_22不能设置为1,指示显示“LOC”。在将Fn_22设置为1之前,必须将Fn_04更改为0。Fn_23:瞬时断电后重启=0:重启启用=1:重启禁用
Adjusting the carrier frequency can usually correct this problem. Fn_13: Torque compensation gain = 0 up to 10 % To enhance Inverter output torque patterns according to the B, C voltage points on the V/F pattern (refer to F_05 description) and the (F_13) for this feature. Note : When Fn_13 = 0, the torque boost function is disabled. 30 Fn_14: Stopping method = 0 : decelerate stop 1 : free run stop Fn_15: DC braking time = 0 up to 25.5 sec Fn_16: DC braking starting frequency = 1 up to 10Hz Fn_17: DC braking level = 0 up to 20% If Fn_14 = 0 When the inverter receive the stop instruction, it decelerate to the frequency setup by Fn_16 and then output voltage level setup in the Fn_17; after the time duration setup in Fn_15, the inverter turn into complete stop. DC braking frequency Output frequency Deceleration time DC braking time Run command If Fn_14 = 1 The inverter stop output immediately after receiving stop instruction. The motor get into free running state to completely stop. Fn_18: Motor rated current = 50 up to 100 % or 0 up to 200%(*) (*) Only for drives with CPU version from 1.9 (check fnction F_29) 1. Function of the electronic thermal protecting motor (1) Motor rated current = Inverter rated current x Fn_18 Fn_18 = Motor rated current / inverter rated current (2) When the load is within 100% of the motor rated current, the operation continues. When the load reaches 150% of the motor rated current the operation may continues for only 1 minute. (refer to curve (1) in figures 3) (3) After protecting the motor with the electronic thermal switch activated, the inverter is cut off immediately. The OLI light will flash. To resume operation, push the RESET button or activate an external reset connection wired to terminal 2. (4) When the motor is operating at low speeds, the heat dissipation efficiency is lower. The electronic thermal activation level is also reduced. (to change from curve (1) to curve (2) in Figure 3. Choose the appropriate Fn_05 setting according to the applied motor to reach the desired performance. 31 2. Function of the electronic thermal protecting inverter (1) When the load is within 103% of the inverters rated current, the operation continues. When the load reaches 150% of rated current of the inverter, the operation will continue for 1 minute. ( Refer to curve (1) of figure 3) (2) After the activation of the electronic thermal switch, the inverter is shut off immediately. The OL2 light will flash. To resume the operation, push RESET button or activate an external reset contact on terminal 2. Fn_19: Multifunction input terminal 1 function = 1 up to 5 or 6(*) Fn_20: Multifunction input terminal 2 function = 1 up to 5 or 6(*) (*) Only for drives with CPU version from 1.9 (check fnction F_29) 1. Fn_19, Fn_20 =1 : JOG (refer to F_09) 2. Fn_19, Fn_20 = 2 or 6 multispeed control Multi-speed control (only for drives with CPU version from 1.9) F_19 = 2 and F_20 = 6 TM2 SP1 Terminal TM2 RESET Terminal Output frequency ON OFF (F_08) OFF ON (F_26) ON ON (F_27) F_19 = 6 and F_20 = 2 TM2 SP1 Terminal TM2 RESET Terminal Output frequency ON OFF (F_26) OFF ON (F_08) ON ON SP3 (F_27) Fn_05 = 1,2,3 50 Hz standard motor % Fn_05 = 4,5,6 60 Hz standard motor 100 90 60 Derating 100 90 60 Decay Derating % 20 50 (Fig. 1) 20 60 (Fig. 2) (Fig. 3) 100 150 Percentage of Current 1.0 32 3. Fn_19, Fn_20 =3: External emergency stop signal When the external emergency stop signal is activated, the inverter proceeds to decelerate and stop, (ignoring the setting of Fn_14). The inverters E.S. light will flash after stopping. After the emergency stop signal is deactivated, turn the RUN switch OFF and then ON again to cycle it. (Fn_10 =1) Or, push the RUN key (Fn_10=0). The inverter will then resume operation and restart. If the emergency stop signal is removed before the inverter stops, the inverter will still execute the emergency stop. 4. Fn_19, Fn_20 =4: External Base Block (immediate shut off) When the external base block signal is activated, the inverter output will be immediately shut off (ignoring setting in Fn_14) and flash b.b. After the base block signal deactivated, turn the RUN switch OFF and then ON again (Fn_10 = 1) or push the RUN key (Fn_10=0), the inverter will restart from the starting frequency. 5. Fn_19, Fn_20 = 5: Reset when inverter fault. Fn_21: Multi-function output terminal = 1 up to 3 1. Fn_21 = 1: Run mode signal 2. Fn_22 = 2: Frequency agreed signal 3. Fn_21 = 3: Fault signal Terminal 1 and 2 of TM2 are activated at CPF, OL1, OL2, OCS, OCA, OCC, Ocd , Ocb , OVC , LVC , OHC. 33 Fn_22:Reverse instruction = 0 : REV command enabled = 1 : REV command disabled Note: When Fn_04 is set to 1 (reverse), Fn_22 can not be set to 1, indication displays “LOC”. Fn_04 must be change to 0 before setting Fn_22 to 1. Fn_23: Restart after momentary power loss = 0 : restart enabled = 1 : restart disabled
