Created on 09/09/2015

 2015 Sun Hydraulics Corporation See www.sunhydraulics.com for detailed product information 1 of 2

MODEL

FSER

High accuracy synchronizing, flow divider-combiner valve

SERIES 3 / CAPACITY: 12 - 60 L/min. / CAVITY: T-33A

High accuracy, synchronizing flow divider/combiners are sliding-spool, pressure-compensated devices used to split

flow in one direction and combine flow in the opposite direction. With a sychronizing feature, these valves can be

used to allow two hydraulic cylinders to fully stroke and synchronize at the end of the stroke. When the first

cylinder has reached the end of its stroke, a pressure-compensated, reduced flow is metered to or from the second

cylinder until it also reaches the end of its stroke.

TECHNICAL DATA

Maximum Operating Pressure 350 bar

Divisional Accuracy at Minimum Input Flow 50% ±2.5%

Divisional Accuracy at Max Input Flow 50% ±1.5%

Pressure Drop at Minimum Rated Input Flow 2 bar

Pressure Drop at Maximum Rated Input Flow 24 bar

Seal kit - Cartridge Buna: 990-033-007

Seal kit - Cartridge Polyurethane: 990-033-002

Seal kit - Cartridge Viton: 990-033-006

(X)CONTROL

X Not Adjustable

(A)FLOW SPLIT

A 50/50

(N)SEAL MATERIAL

N Buna-N

V Viton

MATERIAL/COATING

Standard Material/Coating

/LH Mild Steel, Zinc-Nickel

snhy.com/FSER

TECHNICAL FEATURES

All flow divider and divider/combiner cartridges are physically interchangeable (i.e. same flow path, same cavity for a given frame size).

Operating characteristics cause the leg of the circuit with the greatest load to receive the higher percentage of flow in dividing mode. If a rigid mechanism is used to

tie actuators together, the lead actuator may pull the lagging actuator and cause it to cavitate.

In combining mode, compensating characteristics will cause the leg of the circuit with the lowest load to receive the higher percentage of flow. If a synchronization

feature is not included, an additive accuracy error will be experienced with each full stroke of the actuator.

In applications involving rigid mechanisms between multiple actuators, operating inaccuracy will cause the eventual lock-up of the system. If the mechanical

structure is not designed to allow for the operating inaccuracy inherent in the valve, damage may occur.

In motor circuits, rigid frames or mechanisms that tie motors together, and/or complete mechanical synchronized motion of the output shaft of the motors, either by

wheels to the pavement or sprockets to conveyors, will contribute to cavitation, lock-up and/or pressure intensification.

Variations in speed and lock-up can be attributed to differences in motor displacement, motor leakage, wheel diameter variance and friction of wheels on the driving

Model Code Example: FSERXANCONFIGURATION OPTIONS

Created on 09/09/2015

 2015 Sun Hydraulics Corporation See www.sunhydraulics.com for detailed product information 2 of 2

surface.

Extreme pressure intensification can occur on multiple wheel drive vehicles.

The synchronization feature provides bi-directional static error correction.

Synchronization flow is approximately 15% of minimum rated input flow.

Divisional and combining accuracy are equal.

The synchronizing feature only comes into play when any one of the 3 ports is blocked. At that time, flow may occur between the other two ports.

Below the minimum flow rating there is not enough flow for the valve to modulate. It is effectively a tee. If flow starts at zero and rises, there will be no dividing or

combining control until the flow reaches the minimum rating.

Incorporates the Sun floating style construction to minimize the possibility of internal parts binding due to excessive installation torque and/or cavity/cartridge

machining variations.

PERFORMANCE CURVES