When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
When the LEF is ordered with the controller, initial data of the actuator is preset in the controller allowing start-up in a short time with the in.easy modein..Body size: 16, 25, 32 , Belt drive , Applicable stroke range: 300, 500, 600, 700, 800, 900, 1000, 1200, 1500, 1800, 2000 , 2 types of motors: servo motor ball screw drive or step motor belt drive , Controller mounting: screw or DIN
Multi-channel Digital Sensor Monitor ( compatible) 5 R/W (400) dtH2 (OUT2 delay time at ON) Setting of OUT1 delay time at ON. 0x0 ~ 0x1770 (0 ~ 6000) 0.01 s increment Y U16 0x0 6 R/W (0) Setting of OUT1 delay time at OFF. 0x0 ~ 0x1770 (0 ~ 6000) 0.01 s increment dtL2 (OUT2 delay time at OFF) Y U16 0x0 7 R/W (0) Setting of digital filter. 0x0 ~ 0x0BB8 (0 ~ 3000) 0.01 s increment 0x070B (1803) 0 R/W FiL (Digital filter) Y U16 0x0 0x0708 (1800
accumulated 1520 0x05F0 0 R/W 3000/6000 L range 0: 1 (L/pulse) 1: 10 (L/pulse) 12000 L range 0: 10 (L/pulse) 1: 100 (L/pulse) 1530 0x05FA 0 R/W PLS1_Ft3 U8 0 Y 0: Add (Addition) 1: dEC1 AC (Setting of the accumulated flow output direction) Setting of the accumulated flow output direction 1600 0x0640 0 R/W U8 0 Y (Subtraction OUT1) 2: dEC2 (Subtraction OUT2) 0: 1.0 sec 1: 2.0 sec 2: 5.0 sec 1800
value OUT2 accumulated PLS1_L U8 0 Y 0: 100 (L/pulse) 1: 1000 (L/pulse) 1520 0x05F0 0 R/W 1530 0x05FA 0 R/W PLS1_Ft3 U8 0 Y 0: 1 (L/pulse) 1: 10 (L/pulse) 0: Add (Addition) 1: dEC1 AC (Setting of the accumulated flow output direction) Setting of the accumulated flow output direction 1600 0x0640 0 R/W U8 0 Y (Subtraction OUT1) 2: dEC2 (Subtraction OUT2) 0: 1.0 sec 1: 2.0 sec 2: 5.0 sec 1800
Y OUT2 setting (PLS/Err) 2ot (Selection of output type) Setting of OUT2 normal and reversed output U8 0 Y 0: 2_P (Normal output) 1: 2_n (Reverse output) 1540 0x0604 0 R/W Dir (Setting of the accumulated flow direction) 0: Add 1: dEC1 2: dEC2 Addition/Subtraction U8 0 Y 1600 0x0640 0 R/W 0: 1.0 sec 1: 2.0 sec 2: 5.0 sec 1 R/W FiL_FLoW (Digital filter_flow rate) U8 0 Y Set digital filter 1800
Initial value (dec) Remarks storage 2 CH1 CH2 CH3 CH4 Set the accumulated direction. 0: Add (Addition) 1: dEC (Subtraction OUT1) 2: dEC2 (Subtraction OUT2) AC (Accumulated display direction) 0x0640 (1600) 0x0641 (1601) 0x0642 (1602) 0x0643 (1603) 0 R/W Y U8 0x0 (0) Setting of digital filter. 0x0 ~ 0x0BB8 (0 ~ 3000) 0.01 s increment 0x070B (1803) 0 R/W FiL (Digital filter) Y U16 0x0 0x0708 (1800
(Page 84) SAVE (Accumulated flow value hold setting) 0: oFF (Not held) 1: 2.0 min 2: 5.0 min 1300 0x0514 0 R/W U8 0 Y 1800 0x0708 0 R/W diSP (Display OFF setting) U8 0 Y 0: on 1: oFF Pin (Security code Used/Not used) Security code U8 0 Y 0 :unused 1: use 1810 0x0712 0 R/W PinCode (Security code setting) Setting range 0x0 to 0x03E7 (0 to 999) 1811 0x0713 0 R/W U16 0 Y Line name 1st letter
(Page 86) SAVE (Accumulated flow value hold setting) 0: oFF (Not held) 1: 2.0 min 2: 5.0 min 1300 0x0514 0 R/W U8 0 Y 1800 0x0708 0 R/W dSP (Display OFF setting) U8 0 Y 0: on 1: oFF Pin (Security code Used/Not used) Security code U8 0 Y 0 :unused 1: use 1810 0x0712 0 R/W PinCode (Security code setting) Setting range 0x0 to 0x03E7 (0 to 999) 1811 0x0713 0 R/W U16 0 Y Line name 1st letter U8
Cooling capacity correction coefficient: Coefficient to calculate the cooling capacity at each altitude For the product operation at an altitude of 1800 meters, the cooling capacity = 8.4 Cooling Capacity x 0.8. Altitude [m] 1. Max. ambient 2. Cooling capacity temp.
Cooling capacity correction coefficient: Coefficient to calculate the cooling capacity at each altitude For the product operation at an altitude of 1800 meters, the cooling capacity = 8.4 Cooling Capacity x 0.8. Altitude [m] 1. Max. ambient 2. Cooling capacity temp.