Series: Guide, Size: 25, Mounting Pitch: S [Ball Screw Drive, Step Motor/Servo Motor (24 VDC)/AC Servo Motor], Stroke, mm: 50
Series: Guide, Size: 25, Mounting Pitch: S [Ball Screw Drive, Step Motor/Servo Motor (24 VDC)/AC Servo Motor], Stroke, mm: 650
Series: Guide, Size: 25, Mounting Pitch: S [Ball Screw Drive, Step Motor/Servo Motor (24 VDC)/AC Servo Motor], Stroke, mm: 700
Series: Guide, Size: 25, Mounting Pitch: S [Ball Screw Drive, Step Motor/Servo Motor (24 VDC)/AC Servo Motor], Stroke, mm: 800
Series: Guide, Size: 25, Mounting Pitch: S [Ball Screw Drive, Step Motor/Servo Motor (24 VDC)/AC Servo Motor], Stroke, mm: 150
Series: Guide, Size: 25, Mounting Pitch: BT [Belt Drive, Step Motor/Servo Motor (24VDC)], Stroke, mm: 800
Series: Guide, Size: 25, Mounting Pitch: S [Ball Screw Drive, Step Motor/Servo Motor (24 VDC)/AC Servo Motor], Stroke, mm: 750
Series: Guide, Size: 25, Mounting Pitch: BT [Belt Drive, Step Motor/Servo Motor (24VDC)], Stroke, mm: 700
Series: Guide, Size: 25, Mounting Pitch: BT [Belt Drive, Step Motor/Servo Motor (24VDC)], Stroke, mm: 1200
Series: Guide, Size: 25, Mounting Pitch: BT [Belt Drive, Step Motor/Servo Motor (24VDC)], Stroke, mm: 300
Series: Guide, Size: 25, Mounting Pitch: BT [Belt Drive, Step Motor/Servo Motor (24VDC)], Stroke, mm: 500
Series: Guide, Size: 25, Mounting Pitch: BT [Belt Drive, Step Motor/Servo Motor (24VDC)], Stroke, mm: 2000
Series: Guide, Size: 25, Mounting Pitch: BT [Belt Drive, Step Motor/Servo Motor (24VDC)], Stroke, mm: 600
HRX-OM-S004 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 at an altitude of 1800 meters = the cooling capacity at an altitude of 1000 meter x 0.8. 2. Cooling Altitude [m] 1. Max. ambient 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 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 For the product operation at an altitude of 1800 meters, the cooling capacity at an altitude of 1800 meters = 8.4 Cooling Capacity x 0.8. Altitude [m] 1. Max. ambient 2. Cooling capacity temp.
For product operation at an altitude of 1800 meters, "the cooling capacity at an altitude of 1800 meters" = "Cooling capacity at an altitude of 1000 meters" x 0.8. Altitude [m] (1) Max. ambient 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 at an altitude of 1800 meters = 8.4 Cooling capacity x 0.8. Altitude [m] 1. Max. ambient 2. Cooling capacity temp.
The parameters that can be saved in internal EEPROM of the SI unit are as follows:Index Sub-Index Name 1005 COB ID, SYNC 1006 Communication cycle period 100C guard time 100D life time factor 1016 1 to 9 Consumer heartbeat time 1017 Producer heartbeat time 1029 1 Communication error 1400 1to 2 1st receive PDO parameter 1600 0 to 8 1st receive PDO mapping 1800 1 to 3,5 COB-ID used by PDO 1A00
Heavy load Standard load Medium load Light load 1 10 50 100 200 1 0.25 0.49 0.98 1.96 2 20 2 0.49 75 200 400 0.74 1.47 2.94 3 30 3 0.74 100 300 600 0.98 1.96 3.92 4 40 125 400 800 4 0.98 1.23 2.45 4.90 5 50 5 1.23 150 500 1000 1.47 2.94 5.88 6 75 200 600 1200 6 1.47 1.96 3.92 7.84 7 100 250 700 1400 7 1.72 2.45 4.90 9.80 8 300 300 800 1600 8 1.96 2.94 5.88 11.76 9 500 500 900 1800 9 2.21