Electric Actuator/Slider Type 100 25 LECSA -S1 S3 200 32 LECSA -S3 S4 400 40 LECSA2-S4 Motor option Stroke [mm] 100 25 LECSB -S5 LECSC -S5 LECSS -S5 Motor mounting position S6 Nil Without option B With lock 100 100 to to 1000 1000 Refer to the applicable stroke table.
to 100 kPa 100 kPa 100 kPa Positive pressure 0 to 1 MPa 0 1 MPa Low pressure 0 to 101 kPa 101 kPa 0 For general purpose fluids Compound pressure 100 to 100 kPa 100 kPa 100 kPa Positive pressure 0 to 500 kPa 0 500 kPa 16-3-24 3 Compact Pressure Sensor For General Air Series PSE540 How to Order ZSE ISE Pressure sensing range PSE 1 3 Vacuum (0 to 101 kPa) Compound pressure (100 to 100 kPa)
F.S. = 100[kPa] 0[kPa] = 100[kPa] 3[%F.S.] = 100[kPa] X 0.03 = 3[kPa] Example: Time Failure predict output 1 ON OFF Time The display error induced by the temperature change can be as much as 3[kPa].
200 0 100 200 300 400 500 600 700 0 50 100 150 200 250 0 50 100 150 200 250 Flow rate l/min (ANR) Flow rate l/min (ANR) Flow rate l/min (ANR) Flow rate l/min (ANR) NOTE) Contact SMC for details of ARBY7000 (New) 1.2-182 5 Port Solenoid Valve/Body ported Cassette Type Manifold Series SY3000 / 5000/7000 SV SY SY SYJ SX VK Series SY7000 VZ VF VFR VP7 VQC Series SY5000 SQ VQ VQ4 VQ5 VQZ VQD
with AMC610-10 installed Approx. 100 with AMC610-10 installed 100 with AMC610-10 installed 100 with AMC610-10 installed 118 (135) 159 (172.5) 159 (172.5) (approx. 105 with AMC810-14 installed) (105 with AMC810-14 installed) 118 (135) (approx. 105 with AMC810-14 installed) (105 with AMC810-14 installed) 158.7 158.7 6-Rc3/4 Ports P (SUP), R (EXH) 6-Rc3/4 Ports P (SUP), R (EXH) 2-G1 (electrical
with AMC610-10 installed Approx. 100 with AMC610-10 installed 100 with AMC610-10 installed 100 with AMC610-10 installed 118 (135) 159 (172.5) 159 (172.5) (approx. 105 with AMC810-14 installed) (105 with AMC810-14 installed) 118 (135) (approx. 105 with AMC810-14 installed) (105 with AMC810-14 installed) 158.7 158.7 6-Rc3/4 Ports P (SUP), R (EXH) 6-Rc3/4 Ports P (SUP), R (EXH) 2-G1 (electrical
P R V Nil 1 2 3 Size Size Air compressor size Note) 100 100 kW 125 125 kW 150 150 kW Note) Note that the above values are for reference only.
[degree] speed [r/min] [ms] [ms] 1 120.000 1000 100 150 100 1 05 2 -320 .000 500 150 100 200 1 10 3 -230.000 3000 200 300 150 3 15 4 70.000 1500 300 100 Disabled 0 (Note) 20 Note.
(Example) Limited to 100[ms] since During acceleration: 100[ms] 20 20 100[ms] 200[ms]. 200[ms] as set since During deceleration: 200[ms] 20 5000 400[ms] 200[ms].
3 e r t r Motor type* Nil Basic type H High precision type Symbol Type Output [W] Actuator size Compatible driver S2 AC servo motor (Incremental encoder) 100 25 LECSA-S1 w Size e Motor mounting position S3 AC servo motor (Incremental encoder) 200 32 LECSA-S3 Nil Top mounting D In-line 25 32 S6 AC servo motor (Absolute encoder) 100 25 LECSB-S5 LECSC-S5 LECSS-S5 S7 AC servo motor (Absolute
Servo motor Graph of overload protection characteristics LE-T5 T6 Characteristics a T7 T8 T9 Characteristics b The following graphs show overload protection characteristics. 1000 1000 Operating Operating Operating 100 100 Operation time [s] Operation time [s] Servo-lock Servo-lock 10 10 1 1 0.1 0.1 100 200 300 350 0 50 150 250 350 100 200 300 400 0 50 150 250 350 (Note 1, 2) Load ratio [%
to 100 N Without pressure switch for vacuum/pressure sensor 100 to 100 i Option4 (For details on the Function/Application, refer to page 121.)
1 t LEM e Motor type*1 r Lead [mm] q Accuracy LEY Symbol Type Output [W] Actuator size Compatible driver*2 Nil Basic type H High precision type Symbol LEJS40 LEJS63 A 16 20 B 8 10 LES S2 AC servo motor (Incremental encoder) 100 40 LECSA-S1 w Size S3 AC servo motor (Incremental encoder) 200 63 LECSA-S3 LEPY LEPS t Stroke [mm]*3 40 63 S6 AC servo motor (Absolute encoder) 100 40 LECSB-S5 LECSC-S5
150 200 250 0 50 100 150 200 250 Supply pressure (kPa) Supply pressure (kPa) Detection side piping: 6 x 4 tubing 5 m Detection nozzle: 1.5 Detection side piping: 6 x 4 tubing 5 m Detection nozzle: 1.5 0.6 0.4 0.5 mm 0.25 mm 0.5 Detection distance (mm) Detection distance (mm) 0.3 0.4 0.3 0.2 0.15 mm 0.2 0.15 mm 0.1 0.1 0.03 mm 0.01 mm 0 0 0 50 100 150 200 250 0 50 100 150 200 250 Supply pressure
0.15 mm 0.3 mm 0.03 mm 0.30 0.03 0.15 0.20 0.02 0.10 0.01 mm 0.10 0.01 0.05 0.05 mm 0.02 mm 0 0 0 Supply pressure [kPa] 75 100 125 150 175 200 225 Supply pressure [kPa] 75 100 125 150 175 200 225 Supply pressure [kPa] 75 100 125 150 175 200 225 Piping length: 5 m Piping length: 5 m Piping length: 5 m Reference pressure 0.06 Reference pressure 0.30 Reference pressure 0.60 The distance of
ISA2-G ISA2-H Detection side piping: 6 x 4 tubing 5 m Detection nozzle: 1.5 Standard pressure: 100 kPa Standard pressure: 100 kPa Detection side piping: 6 x 4 tubing 5 m Detection nozzle: 2.0 0.4 0.6 Standard pressure Standard pressure 0.5 mm 0.25 mm Detection distance (mm) Detection distance (mm) 0.5 0.3 0.4 0.2 0.3 0.15 mm 0.15 mm 0.2 0.1 0.1 0.03 mm 0.01 mm 0 0 50 0 250 200 150 100 250
200 300 0 100 200 300 0 100 200 300 0 Detection distance (m) Detection distance (m) Detection distance (m) Example 1) When requiring 300m detection, select the detection nozzle of 1.0 with supply pressure 0.2MPa.
Example: Set 20 W (100 W 20%) for the 100-W external Regenerative resistor with natural convection cooling method: Pn600 = 2 (unit: 10 W) Note 1. If Pn600 is not set to the optimum value, alarm A.320 will occur . 2.
T4 = 0.2 [s] T1 = V/a1 = 100/3000 = 0.033 [s], T3 = V/a2 = 100/3000 = 0.033 [s] T2 = = = 1.97 [s] L 0.5 V (T1 + T3) V 200 0.5 100 (0.033 + 0.033) 100 T4 = 0.2 [s] The cycle time can be found as follows.