Parker EPR111C02V - Pressure Reducing Proportional Valves

Parker’s selection of proportional pressure reducing valves are for pressure sensitive applications and are capable of flows up to 37 lpm (10 gpm) and pressures as high as 210 bar (3000 psi).
Availability:
Partner Available:Quote Required
Brand Parker
Part No. EPR111C02V
TBD
Ship to
*
*
Shipping Method
Name
Estimated Delivery
Price
No shipping options
Products specifications
Attribute nameAttribute value
Actuation TypeElectricalSeal MaterialFluorocarbon
Body Materialn/aDivisionHydraulic Cartridge Systems Division
DivisionHydraulic Systems DivisionMaximum Kinematic Viscosity45-2000 SSU (6 to 420 cSt)
Minimum Operating Temperature-26 °CCavity SizeC10-3L
Override Functionalityn/aMaximum Operating Pressure350 bar
Wire Mesh Screen Includedn/aMaximum Inlet Pressure Rating5000 psi
Flow Rate10 Gal/minOperation TypeSolenoid Operated
ConfigurationPressure Reducing/RelievingMaximum Operating Temperature+400 °F
Hysteresis4%For Fluid TypeMineral-based or synthetic hydraulic fluids
Valve MaterialAll parts steel. All operating parts hardened steelOperating Temperature-15 to +400 °F
Filter Efficiency RatingISO 4406 18/16/13, SAE Class 4Mounting TypeScrew in cartridge valve
Weight0.59 kgCoil Nut Tightening Torque5-7 lb-ft
Coil Type1/2" Super Coil Low Watt (CCS)Installation Torque50-56 Nm
Maximum Tank PressureN/A psiFunctionProportional Pressure Reducing
Frequency200-600 HzResponse TimeN/A ms
Maximum Drain Flow RateN/A cm3/minMaximum Pressure SettingN/A psi
Current0.9 at 12VDC, 0.45 at 24VDC ALeak Rate492 @ 300 PSI (21 BAR), 946 @ 3000 PSI (210 BAR) cm3/min
Flow DirectionInlet port 1, Reducing port 2, Tank port 3Maximum Flow Rate37.5 L/min
Power Consumption9 @ Max Reduced Pressure WMaximum Regulating Pressure14 bar
Seal MaterialFluorocarbonOverride FunctionalityN/A
Maximum Inlet Pressure Rating5000 PSI, 350 BARConfigurationPressure Reducing/Relieving
Wire Mesh Screen IncludedN/AMaximum Flow Rate10 GAL/MIN, 37.5 L/MIN
Maximum Regulating Pressure200 PSI, 14 BAR
Product resources