High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
EXxx-OMN0037CN 5 -20 F 8000 -32767 -10.5 -5.25 -21 Byte0 Byte1 CH0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 MSB AD LSB Byte2 Byte3 CH1 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 MSB AD LSB -23No.EX-OMN0037CN-A -24No.EX-OMN0037CN-A EX600-AY A M12 (5 )2 2 M12 (4 ) No. 1 LED 2 () 3 4 5 () -25No.EX-OMN0037CN-A 1 24 V() 2 3 0 V() 4 0 V() 5 FE M12 (4 ) 1 24 V 2 D/A DC24 V 34 0 V 5 FE FE 1 k 600
Max.28 V80 mA 1 V C15 V 1 k D420 mA 12 V 300 24 V 600 NPN PF3W7--GPNP PF3W7--HMax.28 V80 mA 1 V 30 ms Max.80 mA 1.5 V 30 ms -22No.PF-OMM0004-D NPN2 PF3W7--A(T)NPN PF3W7--C(T)PF3W7--D(T)NPN PF3W7--GPNP2 PF3W7--B(T)PNP PF3W7--E(T)PF3W7--F(T)PNP PF3W7--HOFF OUT2 OUT2 / -23No.PF-OMM0004-D 30() 3 ON OFF ON OFF [F 1]OUT1(60)[F 2]OUT2(36) -24No.PF-OMM0004-D 3 1 [P_1][n_1] 1
30 ms min duration Analogue 2 output type PF3W30J/PF3W30K J: Analogue output 1 to 5 V Output impedance 1 k K: Analogue output 4 to 20 mA Max. load impedance When power supply is 12 V: 300 When power supply is 24 V: 600 -19No.PF-OMN0012-H Example of wiring for accumulated pulse output NPN 2output type PF3W30A NPN + Analogue output type PF3W30C/PF3W30D NPN + External input type PF3W30G PNP
Max.28 V80 mA 1 V C 15 V 1 k D420 mA 12 V 300 24 V 600 -18No.PF-OMN0011CN-C NPN PF3W30G PNP PF3W30H DC(+) DC(+) OUT1 OUT1 DC(-) DC(-) / / Max.80 mA 1.5 V 30 ms Max.28 V80 mA 1 V 30 ms 2 PF3W30J/PF3W30K DC(+) DC(-) / J15 V 1 k K420 mA 12 V 300 24 V 600 -19No.PF-OMN0011CN-C NPN2 PF3W30A NPN PF3W30C/PF3W30D NPN PF3W30G OUT1 OUT2(PF3W30A) DC(-) DC(+) PNP2
600 5m/s 800 800 2m/s 2m/s 1000 1000 3) Flow rate : 250L/min 6) Flow rate : 180L/min 75 50 25 0 25 50 75 Installation distance from ionizer to workpiece [mm] 75 50 25 0 25 50 75 -75 -50 -25 0 25 50 75 -75 -50 -25 0 25 50 75 0 0 mm ionizer to workpiece [mm] Installation distance from mm 200 200 20m/s 400 400 2m/s 20m/s 2m/s 600 600 10m/s 800 800 10m/s 5m/s 1000 1000 1200 5m/s 1400 5-4.
Ambient temp. 35 deg.C Heating Capacity W Heating Capacity W Ambient temp. 35 deg.C 600 600 Oct X yX ZX AX BX CX DX . Nov y yy Zy Ay By Cy Dy . Danger In extreme conditions, there is a possibility of serious injury or loss of life. When the circulating fluid temperature is low, do not operate it at a low 500 500 flow rate.
*Refer to the table of Applicable stroke 6mm 6mm 8mm 8mm 10mm 10mm B B Cable type *Applicable stroke Standard produced upon receipt of order Without cable Nil Without cable Nil 100 100 200 200 300 300 400 400 500 500 600 600 700 700 800 800 900 900 1000 1000 Robotic type cable R Robotic type cable R 11-LEFS25 11-LEFS25 Standard cable S Standard cable S 11-LEFS32 11-LEFS32 Motor cable
700 800 600 700 800 600 700 800 [mm/s] 500 250 1000 900 630 550 500 420 330 250 230 180 [mm/s] 10 5 20 12 6 () [mm/s] 17 9 33 20 10 () LEFS32 H A B [mm] 24 16 8 [mm] 600 700 800 900 1000 800 900 1000 800 900 1000 [mm/s] 1200 930 750 610 500 500 410 340 250 200 170 [mm/s] 24 16 8 () [mm/s] 39 26 13 () 108 No.SFOD-OMT0009CN-B LEFS40 H A B [mm] 30 20 10 [mm] 1200 1000 1100 1200 1000 1100
700 800 600 700 800 600 700 800 mm/s 500 250 1000 900 630 550 500 420 330 250 230 180 [mm/s] () 10 5 20 12 6 [mm/s] () 17 9 33 20 10 LEFS32 H A B [mm] 24 16 8 [mm] 600 700 800 900 1000 800 900 1000 800 900 1000 mm/s 1200 930 750 610 500 500 410 340 250 200 170 [mm/s] () 24 16 8 [mm/s] () 39 26 13 -108No.JXC-OMT0001CN-C LEFS40 H A B [mm] 30 20 10 [mm] 1200 1000 1100 1200 1000 1100 1200
750 1000 600 750 1000 Purge air flow rate L/min(ANR) 125 150 190 65 80 110 Inlet air pressure MPa Inlet air temperature oC Inlet air saturation temperature oC Ambient temperature oC *Note 1 *Note 1 -15 -20 *Note 2 Standard performance conditions *Note 3 0.7 25 25 25 Dew point indicator purge air flow rate 1L/min (ANR) {In case of inlet air pressure 0.7 MPa} 1/2 1/2 Port size 3/8 1/2 3/8