A new range of miniature positive displacement pumps, which feature an innovative radial piston design that allows for self-priming at altitude and reduces cavitation, has been introduced by miniature component specialists LEE PRODUCTS.

The 200 Series Pumps are driven by a powerful brushless DC motor and qualified for 1,000 hours of operation making them particularly suited to the demands of aerospace and other hi-tech applications. Measuring 124mm in overall length, they represent another example of the Lee Company’s reputation for developing high performance components in the smallest packages.

The pumps were designed to meet the demands of next generation fuel systems on UAV engines. While traditional pumps in these applications only operate for 250 hours, Lee Radial Piston Pumps were designed to meet the critical requirements military engines have for 1,000 hours of operation before the need for overhaul or replacement.

They include an integrated brushless DC servo motor with hall sensor feedback. This allows for precise control of variable flow resulting in optimal efficiency under changing conditions.  The 200 Series Pump can deliver flows up to 235 PPH and can operate at pressures up to 115 psia and temperatures from -57ºC to +110ºC.

The materials used are compatible with most fuels and other petroleum based fluids used in aerospace and other similar critical fluids handling applications.  Custom designs with additional features such as filter screens and integrated motor drive and control are also available.

The 200 Series self-priming pumps are ideally suited for applications such as fuel pumps used on small to medium unmanned aerial systems, auxiliary power units, generators, Formula 1 racing cars, fuel transfer pumps for larger unmanned systems, oil pumps or wherever safe and efficient positive displacement pumping is required.   ENDS.

Further details are available from:  Mike Stott, Lee Products Ltd, 3 High Street, Chalfont St. Peter, Gerrards Cross, Buckinghamshire, SL9 9QE UK.

Tel: +44 (0) 1753 886664.       Email: [email protected]