25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
25 to 85C (with no freezing and condensation)1000 VAC for 1 min. between external terminal and case50M or more (500 VDC Mega) between external terminal and case.10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, whichever is smaller.490 m/s2 in X, Y, Z directions 3 times each1000 Vp-p, Pulse width 1 ?s, Rise time 1 ns240 g1/2
Direct Operated Precision Regulator Modular Style Series ARP3000 1 0.25 0.20 0.20 AMR 0.15 0.15 ITV 0.10 0.10 IC 0.05 0.05 0 0 50 100 150 200 250 300 350 400 450 500 0 0 50 100 150 200 250 300 350 400 450 500 VBA Flow rate (/min (ANR)) Flow rate (/min (ANR)) VE VY1 G Pressure Characteristics PPA Inlet pressure: 2.0 MPa Outlet pressure: 0.8 MPa Flow rate: 60 /min (ANR) Inlet pressure: 2.0 MPa Outlet pressure: 0.3 MPa Flow rate: 60 /min (ANR) AL ARX20 ARX21
Inch size ARJ310F-N01 5/32" 1/4" 03 07 14-4-11 9 Series ARJ310 Flow Characteristics Inlet pressure: 0.7 MPa ARJ310-01 ARJ310F-01-04 ARJ310F-01-06 0.7 0.7 0.7 0.6 0.6 0.6 Outlet pressure (MPa) Outlet pressure (MPa) Outlet pressure (MPa) 0.5 0.5 0.5 0.4 0.4 0.4 0.3 0.3 0.3 0.2 0.2 0.2 0.1 0.1 0.1 0.0 0.0 0.0 0 100 200 300 400 500 600 0 100 200 300 400 500 600 0 100 200 300 400 500 600 Flow
Option Part no. 1 Bracket A ZS-24-A With 2 pcs. of mounting screws 1 Bracket D ZS-24-D With 2 pcs. of mounting screws 1 Panel mount ZS-24-E 1 ZS-24-F Panel mount + Front protection cover 16-2-28 5 Series ZSE50F/ISE50 High Precision, Digital Pressure Switch for General Fluids Specifications ZSE50F (Compound pressure) 100 to 100 kPa 100 to 100 kPa 500 kPa 0.1 0.001 0.001 0.02 1 0.1 ISE50 (
Temperature conditions Water (Standard) Air (Standard) Oil (Standard) Vacuum (3) (V, M) Maximum Minimum 40 1 60 5(1) 40 5 40 40 5 5(2) Pilot port Note 1) Dew point: 5C or less Note 2) 500 cSt or less Note 3) V, M in parentheses are option symbols.
Series SYJ3000/5000/7000 and Series SYJ300/500/700 can be mounted on the same manifold. How to mount on the same manifold is shown on the following pages. PDisconnection To remove the socket from the connector, pull out lead wire while depressing the hook of the socket with a fine screw driver (or similar). If the socket is to be re-used, reposition the hook again.
3000 0 0 2500 2000 1500 1000 500 3000 Flow rate l/min (ANR) Flow rate l/min (ANR) ARBQ5000-00-P (PA) ARBQ5000-00-P (PB) 0.7 0.7 0.6 0.6 Downstream pressure MPa Downstream pressure MPa 0.5 0.5 0.4 0.4 0.3 0.3 0.2 0.2 0.1 0.1 0 0 2500 2000 1500 1000 500 3000 0 0 2500 2000 1500 1000 500 3000 Flow rate l/min (ANR) Flow rate l/min (ANR) Note: 1MPa = 145psi 1l/min = 0.035SCFM Pressure Characteristics
Flow characteristics sJppy pressL,e 1.0vea Reliel flow chatacteristics suppry pressu 1 0 Mpa Pressure chalacteristics setpressure: 04 [4pa 0.9 0.8 P o.z 3 o.o 3 o.s P 0.4 0.8 G n 7 g 0.6 3 o.s E 0.4 -o 0.3 t o.z 0.1 0.0 500 1000 1500 2000 Flow te (l/min IANR)) I E E .9 .9 6 " " a o.2 0 . 1 o 0.0 500 1000 1500 2000 Flow raie (rmin (aNB)) 0.4 0.6 0.8 1.0 1.2 Supply pressure (MPa) series ITV
The kinetic energy of the load can be obtained with the following formula: Cushion rush speed u (mm/s) 200 300 400 500 Also, the graph above can be used for making a selection. Example: Obtain the maximum load weight when a lifter is used at an average speed of ua 300mm/s on a slide bearing type cylinder with a 32 bore and a 100mm stroke.