AC Servo Motor Driver (CC-Link Type ) Refer to section 13.9 for the wire used for the extension cable. 2m or less MR-BKS1CBL2M-A1-L MR-BKS1CBL2M-A2-L MR-BKS1CBL2M-A1-H MR-BKS1CBL2M-A2-H MR-BKS2CBL03M-A1-L MR-BKS2CBL03M-A2-L LE-CSB24VDC power supply for electromagnetic brake 50m or less (Note 4) Electromagnetic brake (MBR) lock Extension cable (To be fabricated) Trouble Servo motor (Note 3) (ALM) Forced stop (EMG) AWG20 + B1 (
L DIN rail AXT100-DR-l 5.25 12.5 (Pitch) 7.5 For l, enter a number from the No. line in the table below.
Rated Vacuum Range: -101 to 0 kPa, Output Specification: T (PNP Open Collector 2 Outputs + Analog Voltage Output), Unit Specification: Unit Selection Function, Switches w/Unit Selection not Permitted for Use in Japan, Piping Specification: 01 (R 1/8), Lead Wire: w/o Lead Wire, Bracket: A2 (Bracket B, Horizontal Mounting)
Rated Vacuum Range: -101 to 0 kPa, Output Specification: PNP Open Collector 2 Outputs + Analog Voltage Output, Unit Specification: Unit Selection Function, Switches w/Unit Selection not Permitted for Use in Japan, Piping Specification: R 1/8, Lead Wire: w/o Lead Wire, Bracket: Bracket B, Horizontal Mounting, Operation Manual: -
MR-PWS1CBLM-A2-L MR-PWS1CBLM-A1-H MR-PWS1CBLM-A2-H LE-CSMCNP3 AWG19 AWG19 AWG19 AWG19 / AWG 19() AWG 19() AWG 19() U V W U V W M AWG 19(/) (B) 10m 10m 2m 13.4 2m MR-PWS1CBL2M-A1-L MR-PWS1CBL2M-A2-L MR-PWS1CBL2M-A1-H MR-PWS1CBL2M-A2-H LE-CSM50m MR-PWS2CBL03M-A1-L MR-PWS2CBL03M-A2-L CNP3 AWG19 AWG19 AWG19 AWG19 / AWG 19() AWG 19() AWG 19() U V W U V W M AWG 19(/) () () .
Body Through-hole l l Maximum tightening torque (Nm) Max. screw-in l (mm) Bolt Model 2. If intermediate stops by external stopper is done, avoid ejection. If lurching occurs damage can result.
Refer to section 12.5 for the wire used for the extension cable. 2m or less MR-PWS1CBL2M-A1-L MR-PWS1CBL2M-A2-L MR-PWS1CBL2M-A1-H MR-PWS1CBL2M-A2-H MR-PWS2CBL03M-A1-L MR-PWS2CBL03M-A2-L LE-CSM50m or less Servo motor Servo amplifier Driver Extension cable CNP3 AWG 19 (red) AWG 19 (white) AWG 19 (black) U V W U V W M AWG 19 (green/yellow) (Note) a) Relay connector for extension cable (Note)
L L F L mg mg Ta = 2 /360 (Ta = 0.0175) Gravity is applied to rotating direction. Tf = mgL Friction force is applied to rotating direction.
Vibrations on guide and moving part resistance will result when power over the allowable moment is applied. rFlatness of mounting surface should be less than 0.02mm. l l l allowable load and allowable moment. Refer to p.3.11-10 and 3.11-11 for the details.
Refer to section 11.4 for the wire used for the extension cable. 2m or less MR-PWS1CBL2M-A1-L MR-PWS1CBL2M-A2-L MR-PWS1CBL2M-A1-H MR-PWS1CBL2M-A2-H MR-PWS2CBL03M-A1-L MR-PWS2CBL03M-A2-L LE-CSM50m or less Driver Servo motor Servo amplifier Extension cable CNP1 AWG 19(red) AWG 19(white) AWG 19(black) AWG 19(green/yellow) U V U V M W W (Note) a) Relay connector for extension cable (Note) b)
N-04 N-06 L-04 L-06 S-04 S-06 LL-04 LL-06 4 6 N-08 8 N-10 10 N-12 12 4 6 L-08 8 L-10 10 L-12 12 4 6 S-08 8 S-10 10 S-12 12 4 6 LL-08 8 LL-10 10 LL-12 12 Precautions Be sure to read before handling.
LES8R/L LESH8R/L LES8D LES16R/L LES16D LESH16R/L LESH16D LES25R/L LES25D LESH25R/L LESH25D M3 x 0.5 0.63 M4 x 0.7 1.5 When a cable duct or flexible moving tube is attached to the actuator, the sliding resistance of the table increases and may lead to operational failure of the product. L M5 x 0.8 3 16.
h Model b (h9) h (h9) l ***!
h Model b (h9) h (h9) l ***!
h Model b (h9) h (h9) l ***!
L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time [s] T = T1 + T2 + T3 + T4 [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be obtained by the following equation.
N-04 N-06 L-04 L-06 S-04 S-06 LL-04 LL-06 4 6 N-08 8 N-10 10 N-12 12 4 6 L-08 8 L-10 10 L-12 12 4 6 S-08 8 S-10 10 S-12 12 4 6 LL-08 8 LL-10 10 LL-12 12 Precautions Be sure to read before handling.
L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/10 = 0.03 [s], T3 = V/a2 = 300/10 = 0.03 [s] Time T = T1 + T2 + T3 + T4 [s] [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be found by the following equation.