eCycle is located in Temple , PA and has invested in developing a line of unique brushless motors and generators. 

For decades, brushless motors have been recognized as an advanced technology that converts power more efficiently and more reliably than conventional motors.  eCycle has focused its efforts on producing efficient, commercially viable brushless motors and generators, and the related electronics, in the 1 -10kW performance range.

Unlike other brushless motors, eCycle's SolidSlot™  operates at low voltages (12-36VDC) and high current (up to 450A).   A combination of characteristics make eCycle's product ideal for mobile applications: efficiency, ruggedness, power density and attractive cost factor, particularly when reliability and minimization of maintenance are important.  In fact, eCycle’s equipment delivers quantum improvements in performance for existing applications, while also enabling new applications, which were not technically or economically feasible in the past.  The improvements incorporated into the SolidSlot™ brushless motor allow it to be competitive in high volume applications, which had  previously been the  domain of conventional DC motors. 

Many end products can be enabled or enhanced by using eCycle's products, including hydraulic equipment, auxiliary power units/DC gen-sets, material handling equipment, marine propulsion systems, hybrid vehicles and robotics platforms.  In practical terms, eCycle is peerless in many or most of the products it offers and applications it supports. 

Utilizing the resources of its many strategic partners, which are typically suppliers of component parts, eCycle takes full advantage of existing manufacturing infrastructure to minimize costs.  To our advantage, this also affords responsiveness to high volume opportunities.

eCycle's SolidSlot™ brushless motors are setting industry standards through dramatically improved performance, efficiency and reliability.  Due to its integration of power semiconductors, costs are certain to decrease with increasing volume, ultimately replacing DC motors in many mainstream applications, particularly mobile ones.