High Vacuum Angle Valve (Refer to page 18.) * Standard lead wire length is 0.5 m. Add M to the end of the part number for 1 m, L for 3 m, and Z for 5 m.
M1 M2 M3 m1 m2 m3 16 25 40 16 25 40 16 25 40 5 4 3.5 18 16 14 MY2H 13 14 10 35 35 30 45 33 28 68 66 57 7 6 7 15 13 13 MY2H 28 26 26 32 30 30 60 50 60 62 62 62 46 55 46 20 18 18 MY2HT 100 120 100 38 35 35 200 220 200 80 80 80 The above values are the maximum allowable values for moment and load.
J D-X Most sensitive position 20Data 10-20-17 18 Reed Switch Tie-rod Mounting Style D-A5/D-A6 For details about certified products conforming to international standards, visit us at www.smcworld.com.
MVGQM, MVGQL Common Dimensions ML2B Applicable solenoid valve B C DA G GA H J K L MM ML NN Q R S T V W X YY YL Z Bore size (mm) Standard stroke (mm) TA TB U Over 10 st 10 st C J G5-S 12 6 29 50 13 18 58 39 22 56 2 5 36 40 14 7 12 29 5 48 20 30 16 M4 x 0.7 10 M4 x 0.7 M4 x 0.7 10, 20, 30, 40, 50, 75, 100 16 CV 8 33 54 64 15 22 43 25 62 2.5 5.5 38 42 16 8 13 33 7 52 23 30 18 M5 x 0.8 13 M5
Most sensitive position 6-16-17 18 Reed Switch Tie-rod Mounting Style D-A5/D-A6 For details about certified products conforming to international standards, visit us at www.smcworld.com.
Most sensitive position 9-15-17 18 Reed Switch Tie-rod Mounting Style D-A5/D-A6 For details about certified products conforming to international standards, visit us at www.smcworld.com.
**:Cat. 18 No.EX##-OMY0006CN 3.3.8. SI 0 SI 0 A SI 1. 2.I/O 3.SI 4. 5. 10 0 I/O 0 "0"= SI 72 72 SI 72 SI SI 16 SI SI SI SI 0 16 19 No.EX##-OMY0006CN SI SI SI 16 SI SI 20 D 3.3.9. GSDMLFDCML 3.4. SI 4 3 (Z1Z2Z3) 1 M EX245-DY124V/0V EX245-DY1 /EN ISO 13849:2012 Table D.4 Faults and fault exclusion SI 0V 0V SI SI SI 20 No.EX##-OMY0006CN 4.
The response time indicates when the set value is 90% in relation to the step input. 18: Any products with tiny scratches, smears, or display colour variation or brightness which does not affect the performance are verified as conforming products.
Power supply error from the IO-Link master Supply 18 to 30 VDC to the IO-Link master. : OFF Communication is not established. IO-Link wiring failure Additionally tighten the IO-Link cable. (Replace the cable if it is broken.) Check the connection and cable condition of the IO-Link cable. IO-Link indicator light : Flashing IO-Link master and product version are not matched.
IZ*-OMS0001 : : IZN10 IZN10 IZN10 IZN10 0120-837-838 9:00~1700~ -1- 1. 1. 1. 1. 3 3 3 3 2. 2. 2. 2. 5 5 5 5 3. 3. 3. 3. 6 6 6 6 4. 4. 4. 4. 4 4 4 4-1. 1. 1. 1. 7 7 7 7 4 4 4 4-2. 2. 2. 2. 10 10 10 10 4 4 4 4-3. 3. 3. 3. 16 16 16 16 4 4 4 4-4. 4. 4. 4. 17 17 17 17 4 4 4 4-5. 5. 5. 5. 17 17 17 17 5. 5. 5. 5. 18 18 18 18 6. 6. 6. 6. 20 20 20 20 7. 7. 7. 7. 7 7 7 7-1. 1. 1. 1. 21 21 21 21 7
3.8.1 Message frame . 3-7 3.9 Function code . 3-9 3.10 Checksum calculation method . 3-9 3.10.1 LRC(ASCII) . 3-9 3.10.2 CRC(RTU) .3-10 3.11 Explanation of function codes . 3-12 3.11.1 Function code: 04 Reading multiple registers .3-12 3.11.2 Function code: 06 Writing registers.3-13 3.11.3 Function code: 16 Writing multiple registers .3-15 3.12 Negative response . 3-16 3.13 Register map . 3-18
3.8.1 Message frame . 3-7 3.9 Function codes . 3-9 3.10 Checksum calculation method . 3-9 3.10.1 LRC(ASCII) . 3-9 3.10.2 CRC(RTU) .3-10 3.11 Explanation of function codes . 3-12 3.11.1 Function code04 Reading multiple registers .3-12 3.11.2 Function code06 Writing registers .3-14 3.11.3 Function code16 Writing multiple registers .3-15 3.12 Negative response . 3-16 3.13 Register Map . 3-18
No.IP80-OM00019-B / / * 3-4 5 1. 5 2. 6-7 2-1 IP8000 6 2-2 IP8100 7 3. 8-9 3-1 IP8000 8 3-2 IP8100 9 4. 10-12 5. 13 5-1 13 5-2 13 6. 14 7. 15-17 7-1 16 7-2 17 7-3 17 8. 18 9. 18-20 10. 20-22 11. 23-25 11-1 23 11-2 IP8100 23 11-3 IP8000 24 11-4 24 11-5 25 12. 26 13. 27-33 2 A (ISO/IEC)(JIS)*1) *2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic
KFD2-SR2-Ex2.W Relay output No.DIG-31900-OM002 18 Description of Components Fig.14 shows a description of each component.
Refer to Table 2 on page 18 for the allowable lateral load. (3) When a workpiece is mounted on the piston rod end, connect them by aligning the axial center of the piston rod and that of the workpiece. If they are off-center, a lateral load will be generated and the phenomena mentioned in item 2 may occur. 11-2.
Piston Rod Movement Direction (DIP Switch No. 1) . 18 2-2. Bore size (DIP Switch No.2 to No.4) . 18 2-3. Piston rod Movement at No Signal Operation (DIP Switch No.5, No.6) . 18 2-4. Maximum Piston Rod Speed Setting (Rotary Switch) . 19 3.
Maintenance P.17 1) Inspection P.17 2) Overhaul P.18 3) Disassembly P.18 4) Assembly P.19 5) Expendable supplies P.20 6) Replacement procedure of seal P.21 7) Inspection P.22 5. Troubleshooting P.23 6. Construction P.26 7.
This may cause human injury and/or an accident. (18) Refer to the Auto Switches Precautions when using with an auto switch. Selection Caution (1) Do not use below the adjustment range specified for the product.
Center of gravity . 17 4Product Specifications . 18 4-1. Air gripper . 18 4-2. 3-port solenoid valve . 19 4-3. Auto switch . 20 5Operating method or operation . 21 5-1Precautions for Design . 21 5-2. Installation . 21 5-3. Wiring example to robot controller (common to NPN/PNP) . 30 5-4.YASKAWA Plug & Play Kit . 31 5-4-1. Installing YASKAWA Plug & Play Kit . 31 5-4-2.
When a surge-generating load, such as a relay or solenoid valve, is driven directly, use a product that incorporates a surge absorption element. -21- 18. The power supplies should be separated between the controller power and the I/O signal power, and both power supplies must not be of the inrush-current limited type.