The LECP6 controls NPN or PNP step motors.Motor controller: Step motor (servo/24 VDC), Servo motor (24 VDC) , Compatible with series LEF , Possible to set position, speed & force (64 points) , Screw mounting or DIN rail mounting, CONTROLLER, STEP NPN, ACTUATOR, ELECTRIC ACTUATOR, MC, 40MM LE ELECTRIC ACTUATOR, 1.87392 lb
The LECP6 controls NPN or PNP step motors.Motor controller: Step motor (servo/24 VDC), Servo motor (24 VDC) , Compatible with series LEF , Possible to set position, speed & force (64 points) , Screw mounting or DIN rail mounting, CONTROLLER, NPN, ACTUATOR, ELECTRIC ACTUATOR, NC, 50MM LE ELECTRIC ACTUATOR, 0.37478 lb
The LECP6 controls NPN or PNP step motors.Motor controller: Step motor (servo/24 VDC), Servo motor (24 VDC) , Compatible with series LEF , Possible to set position, speed & force (64 points) , Screw mounting or DIN rail mounting, MOTOR CONTROLLER, ACTUATOR, ELECTRIC ACTUATOR, 2C, LE ACTUATOR, NO SIZE RATING, 0.66138 lb
The LECP6 controls NPN or PNP step motors.Motor controller: Step motor (servo/24 VDC), Servo motor (24 VDC) , Compatible with series LEF , Possible to set position, speed & force (64 points) , Screw mounting or DIN rail mounting, CONTROLLER, STEP PNP, ACTUATOR, ELECTRIC ACTUATOR, 2C, LE ACTUATOR, NO SIZE RATING, 4.2636 lb
The LECP6 controls NPN or PNP step motors.Motor controller: Step motor (servo/24 VDC), Servo motor (24 VDC) , Compatible with series LEF , Possible to set position, speed & force (64 points) , Screw mounting or DIN rail mounting, CONTROLLER, STEP, ACTUATOR, ELECTRIC ACTUATOR, 2C, LE ACTUATOR, NO SIZE RATING, 0.66138 lb
Possible applications include transfer, opening and shutting, pressing, pushing, and press-fitting.Three body sizes: 16, 25, 32, Compatible with slide bearing and ball bearing, Speed control/positioning: maximum 64 points, RoHS compliant, ACTUATOR, ELECTRIC, ACTUATOR, ELECTRIC ACTUATOR, IC, 25MM LE ELECTRIC ACTUATOR, 11.02311 lb
Add to Cart SMC SX3000-57-4 gasket type 45, SS5Y3 MANIFOLD SY3000*** $0.76 + Add to Quote Add To Cart Add to Cart SMC SX3000-64
AC Servo Motor Driver ( SSCNETⅢ Type ) Modern UI Client Hyper-V Tablet Mode Virtual desktop Does not support 64-bit Operating System, except for Microsoft Windows 7 or later. 11 16 11. OPTIONS AND AUXILIARY EQUIPMENT 5. Multi-display is set, the screen of this product may not operate normally. 6.
Select 32 bit or 64 bit depending on your PC. Right-click on "Install.bat" displayed in "Run as administrator". 2) The following screen will be displayed depending on the setup of the PC. Click Yes. 3) Command prompt is displayed. 4) The following screen will be displayed. Click the "Next". 5) The following screen will be displayed.
Select 32 bit or 64 bit depending on your PC. Right-click on "Install.bat" displayed in "Run as administrator". 2) The following screen will be displayed depending on the setup of the PC. Click Yes. 3) Command prompt is displayed. 4) The following screen will be displayed. Click the "Next". 5) The following screen will be displayed.
. / (420) 5-414 24611 NORWAY / (47) 67 12 90 20 DENMARK / (45) 70 25 29 00 POLAND / (48) 22-548 50 85 FINLAND / (358) 9-859 580 PORTUGAL / (351) 2 610 89 22 FRANCE / (33) 1-64 76 1000 SPAIN / (34) 945-18 4100 GERMANY / (49) 6103 4020 SWEDEN / (46) 8-603 0700 GREECE / (30) 1342 6076 SWITZERLAND / (41) 52-396 3131 HUNGARY / (36) 1-371 1343 TURKEY / (90) 212 221 1512 IRELAND / (353) 1-403 9000
Inputting the TL signal before reducing the speed may cause vibration. 64 - 12.4 Operation after Pushing Operation Example: Continuing from the operation example in section "12.3 Pushing Operation", the table moves to the target position 2, which is 4 mm from the Origin position, within 0.5 seconds. i.Setting example of pulse input signals Card Motor encoder resolution: 1.25 m/pulse 2-pulse
Lifting force = Theoretical lifting force / t Theoretical lifting force (Theoretical lifting force = P x S x 0.1) Cup diameter (8 to 32) [N] Cup diameter [mm] 8 10 13 16 20 25 32 S: Cup area [cm2] 0.50 0.79 1.33 2.01 3.14 4.91 8.04 -85 4.2 6.6 11 17 26 41 68 -80 4.0 6.2 10 16 25 39 64 -75 3.7 5.8 10 15 23 36 60 -70 3.5 5.5 9.3 14 22 34 56 Vacuum -65 3.2 5.1 8.6 13 20 31 52 pressure -60 3.0
Lifting force = Theoretical lifting force / t Theoretical lifting force (Theoretical lifting force = P x S x 0.1) Cup diameter (8 to 32) [N] Cup diameter [mm] 8 10 13 16 20 25 32 S: Cup area [cm2] 0.50 0.79 1.33 2.01 3.14 4.91 8.04 -85 4.2 6.6 11 17 26 41 68 -80 4.0 6.2 10 16 25 39 64 -75 3.7 5.8 10 15 23 36 60 -70 3.5 5.5 9.3 14 22 34 56 Vacuum -65 3.2 5.1 8.6 13 20 31 52 pressure -60 3.0
Lifting force = Theoretical lifting force / t Theoretical lifting force (Theoretical lifting force = P x S x 0.1) Cup diameter (8 to 32) [N] Cup diameter [mm] 8 10 13 16 20 25 32 S: Cup area [cm2] 0.50 0.79 1.33 2.01 3.14 4.91 8.04 -85 4.2 6.6 11 17 26 41 68 -80 4.0 6.2 10 16 25 39 64 -75 3.7 5.8 10 15 23 36 60 -70 3.5 5.5 9.3 14 22 34 56 Vacuum -65 3.2 5.1 8.6 13 20 31 52 pressure -60 3.0
Lifting force = Theoretical lifting force / t Theoretical lifting force (Theoretical lifting force = P x S x 0.1) Cup diameter (8 to 32) [N] Cup diameter [mm] 8 10 13 16 20 25 32 S: Cup area [cm2] 0.50 0.79 1.33 2.01 3.14 4.91 8.04 -85 4.2 6.6 11 17 26 41 68 -80 4.0 6.2 10 16 25 39 64 -75 3.7 5.8 10 15 23 36 60 -70 3.5 5.5 9.3 14 22 34 56 Vacuum -65 3.2 5.1 8.6 13 20 31 52 pressure -60 3.0
Lifting force = Theoretical lifting force / t Theoretical lifting force (Theoretical lifting force = P x S x 0.1) Cup diameter (8 to 32) [N] Cup diameter [mm] 8 10 13 16 20 25 32 S: Cup area [cm2] 0.50 0.79 1.33 2.01 3.14 4.91 8.04 -85 4.2 6.6 11 17 26 41 68 -80 4.0 6.2 10 16 25 39 64 -75 3.7 5.8 10 15 23 36 60 -70 3.5 5.5 9.3 14 22 34 56 Vacuum -65 3.2 5.1 8.6 13 20 31 52 pressure -60 3.0
Lifting force = Theoretical lifting force / t Theoretical lifting force (Theoretical lifting force = P x S x 0.1) Cup diameter (8 to 32) [N] Cup diameter [mm] 8 10 13 16 20 25 32 S: Cup area [cm2] 0.50 0.79 1.33 2.01 3.14 4.91 8.04 -85 4.2 6.6 11 17 26 41 68 -80 4.0 6.2 10 16 25 39 64 -75 3.7 5.8 10 15 23 36 60 -70 3.5 5.5 9.3 14 22 34 56 Vacuum pressure [kPa] -65 3.2 5.1 8.6 13 20 31 52
Lifting force = Theoretical lifting force / t Theoretical lifting force (Theoretical lifting force = P x S x 0.1) Cup diameter (8 to 32) [N] Cup diameter [mm] 8 10 13 16 20 25 32 S: Cup area [cm2] 0.50 0.79 1.33 2.01 3.14 4.91 8.04 -85 4.2 6.6 11 17 26 41 68 -80 4.0 6.2 10 16 25 39 64 -75 3.7 5.8 10 15 23 36 60 -70 3.5 5.5 9.3 14 22 34 56 Vacuum -65 3.2 5.1 8.6 13 20 31 52 pressure -60 3.0
330mA 4() IDU Series 6-1 6 1 IDX-OM-W029 6 6-2 GWP (GWP) Regulation (EU) No 517/2014 IPCC AR4) R134a 1,430 1,430 R404A 3,922 3,920 R407C 1,774 1,770 R410A 2,088 2,090 (1) (2) 6-3 IDU22E75E A B (G) (D) E (F) C (10, (10 1m) 1m) J K L2 N1 M P 13 4x H (911)[] 911)[] mm A B C D E F G H J K L M N P IDU22E R1 325 775 1153 93 445 1235 279 353 600 379 46 85 IDU37E R11/2 360 1258 64