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.
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 = 9.4 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 At an altitude of 1800 meters = Cooling capacity 8.4 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 At an altitude of 1800 meters = Cooling capacity 8.4 x 0.8. Altitude [m] 1. Max. ambient 2. Cooling capacity temp.
An adjustable data buffer is available via OPC UA for up to 1800 bytes of data and a sampling rate of 100 ms or longer. Parameters Description Data buffer Enable or Disable The data buffer array can be enabled or disabled for each OPC UA node. Historical Data Buffer Sampling Cycle Sampling cycle time for the buffer.
Fluid: water 500 1400 Ambient 15C 1200 400 Cooling capacity W Cooling capacity W 1000 Ambient 15C 300 Ambient 35C 800 Ambient 20C Ambient 25C 600 200 400 Ambient 30C 100 200 0 0 10 15 20 25 30 35 40 45 50 10 15 20 25 30 35 40 45 50 Fluid temperature degC Circulating fluid temperature degC Fig. 6-1 Cooling capacity 2) Heating capacity Fluid: water Fluid: water 1000 2000 900 Ambient 35C 1800