Controller/Driver LEC/JXC Series <Single Axis Controllers> Step Data Input Type Page 560 Gateway Unit Page 572 Programless Type Page 576 Step Motor LEC-G Series Step Motor Servo Motor (Servo/24 VDC)/ (Servo/24 VDC)/ (24 VDC)/ LECP6 Series LE Motor power supply (+), Common () @1 P1, P2 EtherNet/IPTM communication connector Connect Ethernet cable. 1 Connectors are included. (Refer to page 606-7.) 606-6 B JXC73/83/92/93 Series Wiring Example 1 For 4 Axes 1 pc.
Motor power supply (+), Common () @1 P1, P2 EtherNet/IPTM communication connector Connect Ethernet cable. *1 Connectors are included. (Refer to page 12.) 11 Multi-Axis Step Motor Controller JXC73/83/92/93 Series Wiring Example 1 For 4 Axes 1 pc.
Fixed orifice and variable throttle are available as a throttle for adjusting the pressure increase. (1, 1.5, 2) Output Pressure (P2) vs Time Graph Output P2 P1 P2 reaches half of P1, and then the main valve of the soft start-up valve turns on.
P2 = 1.5 x 0.5-0.024 x 15 = 0.39 MPa Retraction r RHC The above values are for cases where the maximum payload found by the selection method is loaded. 0.2 MK(2) 0.1 100 200 300 Speed adjustment RS Q G Max. speed (mm/s) The data below illustrates the strokes controlled by the respective speed controllers. Gradually increase from a low speed to the desired speed setting.
Replacement parts PAB-OM-C006-B P2 FLUID IN FLUID OUT P1 IN FLUID PT F E diaphragm set K T PA 3 3 1 S w itching valve assembly set K T PA 3 3 6 FLUID OUT P2 P1 4 . Maintenance 3 . How to use C aution Quality of supply air Place filter w ith filtration 5 m.
Replacement parts PAB-OM-C007-B P2 FLUID FLUID OUT IN P1 PT F E diaphragm set K T PA 5 3 1 S w itching valve assembly set K T PA 5 3 6 FLUID IN FLUID OUT P2 P1 4 . Maintenance 3 . How to use E xternal leakage of transported fluid F luid might leak externally due to life of diaphragm, and this could result in human injury or equipment damage. T ake measures against leakage.
Operate within the ranges of the maximum operat ing pressure and back pressure. -5- How to Order LVP 5 0 16A P2 W Valve type 0 1 2 Rubber material N.C. N.O. Type Symbol FKM EPDM Material Symbol Standard Low water hammer type Type Nil N Double acting Nil W Pilot port position (Refer to the figure above.)
Subsonic flow when (P2+0.100)/ (P1+0.100)>0.5 Q=240S P(P1+0.100) Sonic flow when (P2+0.100)/ (P1+0.100)0.5 Q=120S (P1+0.100) Q: Air flow ratedm 3 /min(ANR) 2 ) P: Differential pressure P1P2MPa P1: Upstream pressureMPa P2: Downstream pressureMPa Correction for different air temperatures Multiply the flow rate calculated with the about formula by a coefficient from the table below.
Subsonic flow when (P2+0.100)/ (P1+0.100)>0.5 Q=240S P(P1+0.100) Sonic flow when (P2+0.100)/ (P1+0.100)0.5 Q=120S (P1+0.100) Q: Air flow ratedm 3 /min(ANR) 2 ) P: Differential pressure P1P2MPa P1: Upstream pressureMPa P2: Downstream pressureMPa Correction for different air temperatures Multiply the flow rate calculated with the about formula by a coefficient from the table below.
Subsonic flow when (P2+0.100)/ (P1+0.100)>0.5 Q=240S P(P1+0.100) Sonic flow when (P2+0.100)/ (P1+0.100)0.5 Q=120S (P1+0.100) Q: Air flow ratedm 3 /min(ANR) 2 ) P: Differential pressure P1P2MPa P1: Upstream pressureMPa P2: Downstream pressureMPa Correction for different air temperatures Multiply the flow rate calculated with the about formula by a coefficient from the table below.
Warning Warning Caution External Pilot Pilot port 12(P1) and 10(P2) piping P1 and P2 piping should be as follows according to the model. Installing a silencer to the exhaust port and the bleed port is recommended for noise reduction and for dust entry prevention. Caution Mounting 1. Do not apply external force to the coil section.
Conversion equation V0 = (P1 x V1 P2 x V1)/P0 V0: Discharge volume L P1: Tank initial pressure MPa (Absolute pressure) V1: Tank capacity L P2: Tank pressure after release MPa (Absolute pressure) P0: Atmospheric pressure MPa (Absolute pressure) Note 1) If the regulator or the restrictor is installed right before the IN side of the valve, the valve may oscillate when it is turned off.
3 kPa)1 l/min (ANR) or less (at P2 = 0.4 MPa)0.6 l/min (ANR) or less (at P2 = 0.2 MPa)1.4 l/min (ANR) or less (at P2 = 0.6 MPa)1/4?5 to 60C (No freezing)?5 to 50C (No freezing)Bleed type0.5
3 kPa)1 l/min (ANR) or less (at P2 = 0.4 MPa)0.6 l/min (ANR) or less (at P2 = 0.2 MPa)1.4 l/min (ANR) or less (at P2 = 0.6 MPa)1/4?5 to 60C (No freezing)?5 to 50C (No freezing)Bleed type0.5
3 kPa)1 l/min (ANR) or less (at P2 = 0.4 MPa)0.6 l/min (ANR) or less (at P2 = 0.2 MPa)1.4 l/min (ANR) or less (at P2 = 0.6 MPa)1/4?5 to 60C (No freezing)?5 to 50C (No freezing)Bleed type0.5
3 kPa)1 l/min (ANR) or less (at P2 = 0.4 MPa)0.6 l/min (ANR) or less (at P2 = 0.2 MPa)1.4 l/min (ANR) or less (at P2 = 0.6 MPa)1/4?5 to 60C (No freezing)?5 to 50C (No freezing)Bleed type0.5
3 kPa)1 l/min (ANR) or less (at P2 = 0.4 MPa)0.6 l/min (ANR) or less (at P2 = 0.2 MPa)1.4 l/min (ANR) or less (at P2 = 0.6 MPa)1/4?5 to 60C (No freezing)?5 to 50C (No freezing)Bleed type0.5
3 kPa)1 l/min (ANR) or less (at P2 = 0.4 MPa)0.6 l/min (ANR) or less (at P2 = 0.2 MPa)1.4 l/min (ANR) or less (at P2 = 0.6 MPa)1/4?5 to 60C (No freezing)?5 to 50C (No freezing)Bleed type0.5
3 kPa)1 l/min (ANR) or less (at P2 = 0.4 MPa)0.6 l/min (ANR) or less (at P2 = 0.2 MPa)1.4 l/min (ANR) or less (at P2 = 0.6 MPa)1/4?5 to 60C (No freezing)?5 to 50C (No freezing)Bleed type0.5
3 kPa)1 l/min (ANR) or less (at P2 = 0.4 MPa)0.6 l/min (ANR) or less (at P2 = 0.2 MPa)1.4 l/min (ANR) or less (at P2 = 0.6 MPa)1/4?5 to 60C (No freezing)?5 to 50C (No freezing)Bleed type0.5