Compact Rotary Actuator 59 47 63 30 43 3 180 51 82 55 86 32 7 360 62 125.5 66 129.5 90 50 69 54 73 40 36 4 180 59.5 97.5 63.5 101.5 24 5 360 72.5 152 76.5 156 Operation angle The value in which the auto switch operating range Lm is converted to axis rotating value Hysteresis angle Value in which the auto switch hysteresis is converted to angle If the auto switch is set in dimension A, the magnet is placed around
59 32 7 47 63 43 3 180 51 82 55 86 40 90 50 69 24 5 54 73 36 4 180 59.5 97.5 63.5 101.5 Operating range m: The value in which the auto switch operating range Lm is converted to axis rotating value.
/LEFS /P12,13 2.2 /LEFB BK RLS DC24V(+) /P40 6.6 2 /CN1 BK RLS DC24V(+) -43- No.LEF-OM00601 2012 10 UL 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021 JAPAN Tel: + 81 3 5207 8249 Fax: +81 3 5298 5362 URL http://www.smcworld.com -44-
Press the key. 43 - Specify the step number to be used for the test drive. Press the key to change the choice "None" to numerical value. AX IS. Test DRV 1 1st None Select the first test step number. 2nd Input the step number to be used for the test drive with number keys, and press the SET key. AX IS. Test DRV 1 1st 20 2nd Press the key for five times.
13 27 14 () 109 No.SFOD-OMT0009CN-B 1.5 LEFB LEFB16 LEFB25 LEFB32 T [mm] 48 [mm/s] 1100 1400 1500 [mm/s] 48 () [mm/s] 78 () 1.6 LER LER10 LER30 LER50 J K J K J K [mm] 12 8 12 8 12 7.5 [mm/s] 420 280 420 280 420 280 [mm/s] 30 20 30 20 30 20 () [mm/s] 38 25 38 25 38 25 () 1.7 LEH LEHZ(J)10 LEHZ(J)16 LEHZ(J)20 LEHZ(J)25 LEHZ32 LEHZ40 K [mm] 251/73 249/77 246/53 243/48 242/39 254/43
EtherNet/IP . 43 8. . 44 8.1 . 44 (1) PLC (PLC) . 44 (2) PLC (PLC ) . 44 8.2 . 44 (1) PLC . 44 (2) PLC . 46 9. . 48 9.1 . 48 9.2 . 49 9.3 . 51 9.4 . 52 (1) ABS . 54 (2) INC . 54 (3) LIN-A / LIN-I . 54 (4) CIR-R / CIR-L . 55 (5) SYN-I . 55 10. . 56 10.1 . 56 -2No.JXC-OMT0001CN-C 10.2 . 57 10.3 . 60 10.4 . 64 10.5 . 67 10.6 . 71 10.7 PLC . 73 10.8 . 73 11. . 74 11.1 . 74 11.2
CN5I/O . 23 6.1 . 23 6.2 (NPNPNP ) . 23 (1) I/O (NPNPNP ) . 23 (2) I/O . 23 6.3 . 24 6.4 I/O . 27 7. . 28 7.1 . 28 7.2 . 31 7.3 . 33 8. . 34 8.1 . 34 8.2 . 34 8.3 . 35 (1) . 35 (2) (). 35 (3) . 35 8.4 . 36 8.5 . 36 9. (). 37 9.1 . 37 9.2 . 38 10. . 39 10.1 . 39 10.2 I/O . 39 (1) . 39 (2) . 40 (3) . 41 (4) HOLD. 42 (5) . 42 2 - 6 . 42 (7) . 43 11. . 44 11.1 . 44 11.2 (). 45 11.3 I/O . 46 11.4
CN5I/O .23 6.1 /.23 6.2 /(NPNPNP ).23 (1) I/O (NPNPNP ).23 (2) I/O .23 63 /.24 64 I/O .27 7 .28 71 .28 72 .31 73 .33 8 .34 81 .34 82 .34 83 .35 1 .35 2 (.35 3 .35 84 .36 85 .36 9 .37 91 .37 92 .38 10 .39 101 .39 102 I/O .39 1 .39 2 .40 3 .41 4 HOLD.42 5 .42 2 - 6 .42 7 .43 11 .44 111 [5m ].44 112 [820m].44 113 [5m ].45 114 [820m] .45 115 I/O .46 116 .46 117 .47 12. .48 12.1 .48 12.2 .49 13
Memory map .37 12. 1 Memory assignment.37 12.1.1 Remote Register.43 12. 2 Controller IF status flag.44 12. 3 Gateway unit status flag.45 12. 4 Gateway unit control flag.47 13. Precautions for controlling the controller (LEC).49 13. 1. Communication delay between the gateway unit unit and the controller(LEC) 49 13. 2.
16 4.3 (LEC) . 17 5. . 19 5.1 CN4 . 19 5.2 CN3 . 19 5.3 CN1CONT . 19 5.4 CN2PC/TB . 20 .CN4 . 21 6.1 . 21 1 - 6.2 . 21 6.3 . 22 . 23 7.CN3 . 24 8.CN1IF (CONT) . 25 8.1 . 25 8.2 . 27 9.CN2TB/PC . 28 9.1 . 28 10.LED . 29 10.1 LED . 29 10.2 IF LED . 29 11. . 30 11.1 . 30 11.2 . 30 11.3 . 30 11.4 . 32 12. . 33 12.1 . 33 12.1.1 . 39 12.2 IF ( ) . 40 12.3 (IO ) . 41 12.4 . 43
./ . 43 15./ . 44 15.1 . 44 15.2 . 45 15.3 . 46 15.4 . 47 15.5 . 48 15.6 . 48 16. . 49 2 - 16.1/ . 49 16.2 . 49 16.3 . 51 16.4 . 51 16.5 . 52 16.6 . 52 16.7 . 52 3 - LEC-G Series/ 1) (ISO/IEC)(JIS) 2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic fluid power -General rules relating to systems IEC 60204-1: Safety of machinery -Electrical equipment
- LEC-G Series/ / 1 1.5 5 - 2. 2.1 (GW)LEC (LECP6,LECA6)EtherNet/IP 1 12 LEC * 2.2 DIN D DIN EN1 EtherNet/IP G GW 6 - 2.3 PLC LEC-T1-3G HUB EtherNet/IP GW LEC-W2 LEC-GEN1 LEC RS485Modbus LEC-CGR LEC (LECP6, LECA6) LE Series Modbus GW LEC LEC I/O (LEC-CN5-) GW LEC "SV1.20 ()"SV1.20" 7 - 2.4 () GW (1) GW GW GW (LECGEN1) 1 (LEC-D-1-1) 1 * (2)GW 3.4 (3)LEC GW LEC (ID) 43
Specifications 43 Dimensions 45 Accessories 49 -1No.EX-OMH0025-C Safety Instructions These safety instructions are intended to prevent hazardous situations and/or equipment damage.
EtherNet/IP communication connector . 43 8. Memory Map . 44 8.1 Memory allocation . 44 (1) PLC input port signals (from the controller to PLC) . 44 (2) PLC output port signals (from the PLC to controller) .. 44 8.2 Signals . 44 (1) PLC input port signals (from the controller to PLC) . 44 (2) PLC output port signals (from the PLC to controller) .. 46 9.
Note 4) The output turns on when the actuator is "In position" according to the step data. 43 No.SFOD-OMT0010-B 6.4 Parallel I/O Wiring Example The Wiring depends on the parallel input/output type of the controller (NPN or PNP).
Installation 13 Installation 13 Wiring 15 Pressure Setting 18 Outline of Settings 19 Initial Setting 21 3 Step Setting Mode 25 Simple Setting Mode 27 Function Selection Mode 29 Function selection mode 29 Default setting 29 F 0 Differential pressure check mode, pressure range, display unit 31 F 1 Setting of OUT1 37 F 2 Setting of OUT2 40 F 3 Digital filter setting 42 F 4 Auto-preset function 43
. -4- 1.1.2 Specification Model LEJS100T9H LEJS100T9A LEJS100T9B Stroke [mm] *1 200300400500600800100012001500 3000(mm/s2) 60 150 400 5000(mm/s2) 43 93 150 Horizontal 9800(mm/s2) 22 36 Work load [kg] *2 3000(mm/s2) 14 29 80 5000(mm/s2) 12 29 30 Vertical 9800(mm/s2) 8 9 Actuatr specifications Electric specifications Lock unit to 500 2300 1250 500 Max. speed *3 501 to 1000 1600 800 320 [mm/
22 Function selection mode 22 Default setting 22 F0 Units selection function 24 F1 Setting of OUT1 25 F2 Setting of OUT2 28 F3 Response time 30 F4 Auto-preset function 31 F6 Fine adjustment of display value 33 F11 Display resolution 34 F80 Power saving mode 35 F81 Security code 36 F90 Setting of all functions 37 F97 Copy function 39 F98 Check of output 41 F99 Reset to the default setting 43
Fig. 6-5 Block diagram of the EX245-SPN1A 43 No.EX-OMW0011-B Fig. 6-6 Block diagram of the EX245-SPN2A 44 No.EX-OMW0011-B Fig. 6-7 Block diagram of the EX245-SPN3A 45 No.EX-OMW0011-B 7. Digital Input Module EX245-DX1 7.1. Parts and description Fig. 7-1 Allocation of parts on the EX245-DX1 46 No.EX-OMW0011-B 7.2.
With shock absorber (mm) With bumper bolt (mm) (mm) (NC) Y: Minimum (NA) X: Minimum necessary space necessary space 6 19 44 11 32 10 28 58 10.5 34 15 28 58 10.5 34 20 28 63 10.5 39 25 49 89 12.5 41 32 52 99 11.5 43 40 51 99 10.5 43 Note) The dimensions above show the minimum necessary space for the replacement of the shock absorber and bumper bolt. (Full length of the stopper + 10mm) 2.