Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

N.C.Max.operating pressure differential (MPa)Flow characteristicsMax.system pressure (MPa)Note 2) Mass (kg) Av x 10-6(m2)Cv convertedVCL441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)32.08.40.352.01/4 : 0.583/8 : 0.551/2 : 0.623/4 : 0.78

N.C.Max.operating pressure differential (MPa)Flow characteristicsMax.system pressure (MPa)Note 2) Mass (kg) Av x 10-6(m2)Cv convertedVCL441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)32.08.40.352.01/4 : 0.583/8 : 0.551/2 : 0.623/4 : 0.78

N.C.Max.operating pressure differential (MPa)Flow characteristicsMax.system pressure (MPa)Note 2) Mass (kg) Av x 10-6(m2)Cv convertedVCL441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)32.08.40.352.01/4 : 0.583/8 : 0.551/2 : 0.623/4 : 0.78

N.C.Max.operating pressure differential (MPa)Flow characteristicsMax.system pressure (MPa)Note 2) Mass (kg) Av x 10-6(m2)Cv convertedVCL441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)32.08.40.352.01/4 : 0.583/8 : 0.551/2 : 0.623/4 : 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS441/4 ( 8A)3/8 (10A)1/2 (15A)3/4 (20A)31.08.40.351.01/4: 0.583/8: 0.551/2: 0.623/4: 0.78

VALVE, SOLENOID, 3 PORT SOLENOID VALVE, 80 lb

The SYJ Valve is an innovative combination of space efficiency and performance superiority which provides real value to the design solution. Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal