PSE550/300 Specifications Model PSE550 PSE550-28 0 to 2 kPa 50 to 50 kPa Note) Rated differential pressure range Operating pressure range Proof pressure Applicable fluid Power supply voltage Current consumption 65 kPa Air/Non-corrosive gas/Non-inflammable gas 12 to 24 VDC 10%, Ripple (p-p) 10% or less (With power supply polarity protection) 15 mA or less Analog output 4 to 20 mADC (Within rated differential
/60 Hz 230 VAC 50/60 Hz 191 Thermo-chiller Basic Type HRSE Series Circulating Fluid Temperature Controller Simple function and performance Cooling capacity 1.2, 1.6, 2.2 kW (60 Hz) Power supply 100/200 VAC (50/60 Hz) 230 VAC (50/60 Hz) Triple control Compressor, fan and electronic control valve can be controlled depending on the heat load from the user s equipment.
) Y7BA P.12 Lead wire length symbols: 0.5m .
(Turn proof structure at pressurized state) 1.17-2 AL1000 to 6000 Standard Specifications AL1000 AL2000 AL3000 AL4000 AL4000-06 AL5000 AL6000 Model 1/8, 1/4 1/4, 3/8 1/4, 3/8, 1/2 3/4 3/4, 1 1 M5 X 0.8 Port Size Air 1.5MPa 1.0MPa Fluid Proof pressure Max. operating pressure 1/4: 30 3/8: 40 1/2: 50 130 1/4: 30 3/8: 40 50 Min.operating flow (l/min (ANR))(1) 50 190 220 4 15 130 130 130 7 25
Standard Strokes Bore sizes (mm) Standard strokes (mm) 20, 25 5, 10, 15, 20, 25, 30, 35, 40, 45, 50 32 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 75 40, 50, 63, 80, 100 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 75, 100 Made to Order Hydraulic Fluid Compatibility Manufacture of Intermediate Stroke Cylinders Pages 10 to 12 Intermediate strokes in 5mm increments can be manufactured by installing spacers
Model Power source Frequency (Hz) 50 20 (32) 11 60 17 (28) 7 50 40 18 60 35 12 50 50 21 60 45 17 AC VXD21 DC AC VXD22 DC AC VXD23 DC 5 4 7 6 9 8 Operating Fluid and Ambient Temperature Operating fluid temperature (C ) High temperature oil Ambient temperature (C ) Temperature conditions Power source Water (Standard) Air (Standard) Oil (Standard) (D, E, N, P) High temperature water (3) (D,
For critical applications use A at 2 PSI P . A 10 PSI P will save money and mounting space. Method 2: Chart Index Cv against Bore Size vs. Inches of stroke per second. Assuming 80 PSI and P = 80%.
For critical applications use A at 2 PSI P . A 10 PSI P will save money and mounting space. Method 2: Chart Index Cv against Bore Size vs. Inches of stroke per second. Assuming 80 PSI and P = 80%.
(mm) Electrical entry P Port size B C D E F H K L M N A Model Grommet: G Conduit: C Conduit terminal: T Q R Q R Q R S U 13.5 28 64 31 6.5 12.5 28 14 12.8 M4 4.5 22 59 44 50 99 50 66 83 1/8 VCS21 18 36 67.5 31 8.5 12.5 28 18 12.8 M4 6 22 62 44 53 99 53 66 86 1/4 22 40 81.5 36.5 11 15 32 20 19 M5 8 24 76 46 66.5 101 66.5 68 99 1/4, 3/8 VCS31 30 50 86 36.5 13.5 15 32 25 23 M5 8 24 80 46 71 101
C( E) ( ) 1-1 3-2 ( ) 1-1 P. I. D3-3 5 P. I.
Max.28 V80 mA 1 V -P PNP Max.80 mA 1 V (11 ) -22No.PS-OMM0006CN-E ON OFF ON 1 1 1 1 P_1 H_1 [Pa] ON OFF [s] -23No.PS-OMM0006CN-E <> 1 [P_1][n_1] OUT1 2[P_2][n_2] 2 (P1LP1H)ON P1L()P1H() (n1Ln1H) 1 -24No.PS-OMM0006CN-E 2[F 0] [F] 2 2 [-] [F 0] 27 ISE40A MPa ""M ZSE40A(F) kPa ISE40A P ZSE40A(F) psi [[F 1] OUT1 28 ONOFF ISE40A0.500 MPa ZSE40A-50.7 kPa ZSE40AF50.0 kPa
(mm) Electrical entry P Port size B C D E F H K L M N A Grommet: G Conduit: C Conduit terminat: T Model Q R Q R Q R S U 13.5 28 64 31 6.5 12.5 28 14 12.8 M4 4.5 22 59 44 50 99 50 66 83 1/8 VCS21 18 36 67.5 31 8.5 12.5 28 18 12.8 M4 6 22 62 44 53 99 53 66 86 1/4 22 40 81.5 36.5 11 15 32 20 19 M5 8 24 76 46 66.5 101 66.5 68 99 1/4, 3/8 VCS31 30 50 86 36.5 13.5 15 32 25 23 M5 8 24 80 46 71 101
15 32 230 802 355 422 IDU6E Rc3/4 15 485 IDU Series 6-3 6 3 IDX-OM-W014 6 6-4 IDU3E4E AC100/100,110 (50/60Hz) CM 1 2 ILS FM PTC OLR PC 1 PTC PTC ILS CM AC200/200 (50/60Hz) AC230V (50Hz) PRS AC200/200,220 (50/60Hz) OLR C01 2 2 1 L C11 N TB PRS PE PC TB P FM C11 200V C11200V IDU6E-10 IDU6E-20/23 ILS ILS PTC AC200/200 (50/60Hz) AC230V (50Hz) PTC AC200/200,220 (50/60Hz) AC100/100,110
mA or less 67: 60 mA or less Pressure indication 31/2 digits (Letter height 8 mm) Self-diagnostic function Over current(1), Over pressure, Data error, Confirmation of pressure at zero clear Operating temperature range 0 to 50C (With no condensation) Noise resistance 500 Vp-p, Pulse width: 1 m S, Start up: 1 nS Withstand voltage 1000 VAC(50/60 Hz) for 1 min. between lead wires and body Insulation
Table 1 Table 2 Output type ON YES Hysteresis mode For air OFF P-1 P-2 Display Instantaneous flow rate l/min Cumulative flow rate l Large flow rate "P" H H H (fixed hysteresis) = 3 digits CFM x 10-2 ft3 x 10-1 ON CFM = ft3/min Window comparator mode NO OFF P-1 P-2 For water Large flow rate OUT1 Output mode Display Instantaneous flow rate l/min Cumulative flow rate l ON YES OUT2 is the
Pilot port * Details of the mounting bolts P. 6 Stroke/Minimum stroke for auto switch mountings P. 15 Bore size Standard stroke [mm] 5 10 15 20 25 30 35 40 45 50 12 16 20 25 Applicable Auto Switches/Refer to the Web Catalog or Best Pneumatics for further information on auto switches.
Port size 2-P A 2-M Thread depth N B H Port size 2-M Thread depth N L L K K Conduit terminal: T F (Q) 34 25 U R C G1/2 E B A H D 2-P Port size (S) 2-M Thread depth N L K (mm) Electrical entry P Port size Model Grommet: G Conduit: C Conduit terminal: T M L K H F E D C B N A U S R Q R Q R Q M4 12.8 14 28 12.5 6.5 31 64 28 4.5 13.5 83 66 50 99 50 44 59 22 1/8 VCB21 M4 12.8 18 28 12.5 8.5 31
Port size 2-P A 2-M Thread depth N B H Port size 2-M Thread depth N L L K K Conduit terminal: T F (Q) 34 25 U R C G1/2 E B A H D 2-P Port size (S) 2-M Thread depth N L K (mm) Electrical entry P Port size Model Grommet: G Conduit: C Conduit terminal: T M L K H F E D C B N A U S R Q R Q R Q M4 12.8 14 28 12.5 6.5 31 64 28 4.5 13.5 83 66 50 99 50 44 59 22 1/8 VCB21 M4 12.8 18 28 12.5 8.5 31
Vertical actuation I II P W A P a (b) (a) P P a A W (1) Basically adjusted with meter-out control. When meter-in control is also used, lurching is reduced. (1) Basically adjusted with meter-out control.
Power consumption P: 20 [kW] Q = P = 20 [kW] Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = V: Power supply voltage P 24 [kW] Power consumption e Derive the heat generation amount from the output. Output (shaft power, etc.) W: 13 [kW] w Derive the heat generation amount from the power supply output.