• Maximum Inlet Pressure Rating: 5000 PSI, 350 BAR
• Flow Rate: 8 GAL/MIN, 30 L/MIN
• Configuration: Normally Closed
• Actuation Type: Electrical
• Seal Material: D-Ring (Standard)
• Wire Mesh Screen Included: No
• Division: Hydraulic Cartridge Systems Division
• Flow Rate: 8 Gal/min, 30 L/min
• Maximum Inlet Pressure Rating: 5000 psi, 350 bar
• Configuration: Normally Closed
• Actuation Type: Electrical
• Seal Material: D-Ring (Standard)
• Wire Mesh Screen Included: No
• Maximum Flow Rate: 8 Gal/min, 30 L/min
• Mounting Type: Screw in cartridge valve
• Flow Direction: Side to Nose (2-1)
• Operation Type: Solenoid operated
• Maximum Operating Pressure: 5000 psi, 350 bar
• Leak Rate: 5 drops/min
• Cavity Size: C08-2
• Function: 2-way
• Free Reverse Flow: Yes
• Override Functionality: N/A
• Adjustment Mechanism: N/A
• For Fluid Type: Mineral-based or synthetic hydraulic fluids
• Maximum Kinematic Viscosity: 45-2000 SSU (6 to 420 cSt)
• Filter Efficiency Rating: ISO 4406 18/16/13, SAE Class 4
• Valve Material: All parts steel. All operating parts hardened steel
• Installation Torque: 32-36 lb-ft, 43-49 Nm
• Coil Nut Tightening Torque: 5-7 lb-ft, 7-10 Nm
• Operating Temperature: -35 to +200 °F, -37 to +93 °C
• Maximum Operating Temperature: +200 °F, +93 °C
• Minimum Operating Temperature: -35.0 °F, -37 °C
• Coil Type: 1/2" Super Coil
• Input Voltage: 85% of rated voltage at 72°F (20°C) min
• Response Time: 50 ms
• Weight: 0.25 lb, 0.11 kg
• Body Material: N/A

Markets:
• Aerial
• Construction
• Material Handling
• Miscellaneous Industrial
• Miscellaneous Manufacturing
• Miscellaneous Mobile

Features & Benefits:
• Replaceable one-piece coils with low amp draw
• Fast response available
• Manual override options
• Low leakage spherical poppet
• All external parts zinc plated

Applications:
• Unloading circuits
• Load holding applications
• Lift circuits

Additional Technical Insight:
Parker’s 2 way poppet valves are pilot operated, low leakage solenoid actuated valves. Similar to a check valve, these valves will block flow in one direction will very low leakage (5 drops per minute, or less). When actuated, these valves allow flow to pass through the valve. These valves are typically selected due to their low leakage characteristics and their ability to meet higher flow requirements. Poppet valves are often used on single operation actuators or in unloading functions. They are available in normally closed and normally open types with fast response versions available.

Parker’s two way, two position poppet valves consist of a main poppet, a pilot piston, a spring, and a solenoid coil.

The normally closed poppet version of these valves will act as a check valve when the valve is de-energized. This blocks flow in both directions while allowing free flow in the reverse direction. When the coil is energized, the poppet is piloted open (lifts) and allows free flow in the previously checked direction, typically from the side of the cartridge out the nose.

The normally open poppet version of these valves, when the coil is de-energized, will allow free flow from the side port of the valve (port 2) out the nose of the valve (port 1). Energizing the coil shifts the poppet to block flow in both directions.

Operation: The normally closed poppet valve is held on its seat by a spring, blocking the pilot flow. This will allow pressure at the inlet port (port 2) to hold the poppet on its seat preventing flow through the valve (port 2 to port 1).

If the nose of the cartridge (port 1) is pressurized enough to overcome the spring force, and pushing the poppet off of its seat, flow will be allowed through port 1 to port 2. When the coil is energized, the pilot poppet is lifted off of its seat, venting the pressure inside the poppet to port 1. This creates a pressure imbalance across the main poppet, therefore lifting the poppet and allowing flow from the side to the nose (2 to 1). Because these valves are pilot operated, a minimal amount of pressure differential is necessary (25-50 psi), along with flow between ports 2 and 1 must be present to overcome the spring and lift the poppet.

The normally open valve pilot is held off its seat by spring force. Pilot flow is vented to port 1, creating a pressure imbalance that moves the main poppet. This differential lifts the poppet allowing flow from the side to nose (2 to 1). Since poppet valves are pilot operated, a minimum amount of pressure differential (25-50 psi) between ports 2 overcomes the spring force to drive the valve pilot and main poppet into their seats, thus blocking flow from port 2 to 1. If the nose of the cartridge (port 1) is pressurized, the pressure will overcome the spring force and solenoid force, pushing the poppet off of its seat, allowing restricted flow through the cartridge (1 to 2).