Toll Free: 1-888-878-0686

Solenoid Operated Direction Controls

2 Way 2 Position Normally Closed Bi-directional Valves

Typical Application for the S2E, S2I, and S2L is where load holding in both directions is required.

product details

  • GPM 0.2/PSI 3000/LPM 0.76/bar 207/Model MA-S2E/Cavity 5/8”-18
  • GPM 3/PSI 3000/LPM 11/bar 207/ Model PB-S2I/Cavity 3/4”-16
  • GPM 3/PSI 3000/LPM 15/bar 207/Model DE-S2I/Cavity 7/8”-14
  • GPM 12/PSI 3000/LPM 45/bar 207/Model DE-S2L/Cavity 7/8”-14
  • Hardened parts for long life
  • Industry Common Cavity

Download PDF


Product Image

2 Way 2 Position Normally Closed Poppet Valves

Typical application for the S2A is load holding and lowering in a Lift, Check and Dump circuit. Typical application for the S2B is load holding and lowering when free flow in both directions is required to float the cylinder. Typical application for the S2F is load holding and lowering of a cylinder in low pressure application where the soft seat gives better leakage control.

product details

  • 9-114 LPM (2.5-30 GPM) Maximum oil flow
  • 69-345 bar (1000-5000 PSI) Maximum oil pressure
  • Hardened parts for long life
  • Efficient wet-armature construction
  • Cartridges are voltage interchangeable
  • Industry common cavity

Download PDF


Product Image

2 Way 2 Position Normally Closed Spool Valves

Typical application for the S2G is the locking or braking of a fluid motor.

product details

  • 6-57 LPM (1.5-15 GPM) Maximum oil flows
  • 207-276 bar (3000-4000 PSI) Maximum oil pressure
  • Hardened parts for long life
  • Efficient wet-armature construction
  • Cartridges are voltage interchangeable
  • Industry common cavity

Download PDF


Product Image

2 Way 2 Position Normally Open Poppet Valves

Typical application for the S2C is a pump unloading circuit when high flow and low pressure drop is required. Typical application for the S2D is for when free flow is required in both directions to float the cylinder. Typical application for the S2J is for low pressure applications where the soft seat gives better leakage control.

product details

  • 19-151 LPM (5-40 GPM) Maximum oil flow
  • 138-241 bar (2000-3500 PSI) Maximum oil pressure
  • Efficient wet-armature construction
  • Industry Common Cavity
  • Cartridges are voltage interchangeable

Download PDF


Product Image

2 Way 2 Position Normally Open Spool Valves

Typical application for the S2H is a pump unloading valve.

product details

  • 11-30 LPM (3-8 GPM) Maximum oil flow
  • 207-276 bar (3000-4000 PSI) Maximum pressure
  • Hardened parts for long life
  • Efficient wet-armature construction
  • Industry common cavity
  • Unitized, molded coil design

Download PDF


Product Image

3 Way 2 Position Spool Valves

Typical application for porting option 1 is to operate a spring loaded hydraulic clutch. Typical application for porting option 2 is single acting cylinder control in a gravity lower circuit. Typical application for porting option 3 is a selector valve for two different systems or functions.

product details

  • 2-57 LPM (0.5-15 GPM) Maximum oil flow
  • 207-345 bar (3000-5000 PSI) Maximum pressure
  • Hardened parts for long life
  • Efficient wet-armature construction
  • Cartridges are voltage interchangeable
  • Industry common cavity

Download PDF


Product Image

4 Way 2 Position Spool Valves

Typical application for the S4A, S4D, and S4F is directional motor or cylinder control. Typical application for the S4B is directional motor or cylinder control in a parallel circuit. Typical application for the S4C is directional motor or cylinder control in a series circuit. Typical application for the S4E is motor control in a series/parallel circuit.

product details

  • 4-57 LPM (1-15 GPM) Maximum oil flow
  • 207-345 bar (3000-5000 PSI) Maximum pressure
  • Hardened parts for long life
  • Efficient wet-armature construction
  • Cartridges are voltage interchangeable
  • Industry common cavity

Download PDF


Product Image

Featured Case Study

Featured Case Study Falcon Equipment
As the power infrastructure ages, maintaining power lines is becoming more labor intensive and the need for increased productivity and higher levels of safety is ever increasing. BC Hydro required a control system that would be safe to operate in close proximity to high voltage power lines while they are still active... read more »