Add to ORKGThis article investigates a new type of axial cycloidal magnetic gear (CMG) that can minimize the unbalanced radial force within the CMG structure. The unbalanced radial force is decomposed into an eccentric coupling force and an eccentric quadrature force. These two force components are studied separately for both the radial and axial CMG typologies. The studies show that only the axial CMG can cancel out the eccentric coupling force. An example design of a parallel connected dual-rotor axial CMG that minimizes the unbalanced radial force is presented. The design has a gear ratio of 96:1 and a calculated active region volumetric torque density of 251 N·m/L
This paper proposes an optimal design of a middle motor integrated into a mid-drive unit for pedal e...
Today, magnetic transmissions as a highly efficient technology are being studied and developed by re...
This paper presents a new topology of the coaxial magnetic gear (CMG) in which the permanent magnets...
This paper investigates the volumetric torque density performance of a radial and an axial cycloidal...
This paper investigates the performance of a -25:1 gear ratio cycloidal magnetic gearbox (CMG) with ...
This paper presents a new permanent-magnet gear based on the cycloid gearing principle. which normal...
In this paper, the CMG is re-condition so that the pole piece act as the outer rotor instead of surf...
The cycloid magnetic gear transfers speed through the inner rotor rotation and revolution to get a h...
Cycloidal gear reducers are commonly used for speed reduction where machine needs high reducing rati...
In this paper, the CMG is re-condition so that the pole piece act as the outer rotor instead of surf...
Recently, magnetic gearboxes (MGBs) are attracting more followers as they offer great benefits over ...
This paper proposes a design and implementation of an axial type magnetic gear (MG) based on the com...
Magnetic gearbox (MGB) is a contactless magnet-based transmission system that transmits mechanical p...
Power transmission is traditionally achieved with a mechanical gear. These gears require maintenance...
Magnetic gearbox (MGB) becomes an attractive research topic in mechanical transmission as it offers ...
This paper proposes an optimal design of a middle motor integrated into a mid-drive unit for pedal e...
Today, magnetic transmissions as a highly efficient technology are being studied and developed by re...
This paper presents a new topology of the coaxial magnetic gear (CMG) in which the permanent magnets...
This paper investigates the volumetric torque density performance of a radial and an axial cycloidal...
This paper investigates the performance of a -25:1 gear ratio cycloidal magnetic gearbox (CMG) with ...
This paper presents a new permanent-magnet gear based on the cycloid gearing principle. which normal...
In this paper, the CMG is re-condition so that the pole piece act as the outer rotor instead of surf...
The cycloid magnetic gear transfers speed through the inner rotor rotation and revolution to get a h...
Cycloidal gear reducers are commonly used for speed reduction where machine needs high reducing rati...
In this paper, the CMG is re-condition so that the pole piece act as the outer rotor instead of surf...
Recently, magnetic gearboxes (MGBs) are attracting more followers as they offer great benefits over ...
This paper proposes a design and implementation of an axial type magnetic gear (MG) based on the com...
Magnetic gearbox (MGB) is a contactless magnet-based transmission system that transmits mechanical p...
Power transmission is traditionally achieved with a mechanical gear. These gears require maintenance...
Magnetic gearbox (MGB) becomes an attractive research topic in mechanical transmission as it offers ...
This paper proposes an optimal design of a middle motor integrated into a mid-drive unit for pedal e...
Today, magnetic transmissions as a highly efficient technology are being studied and developed by re...
This paper presents a new topology of the coaxial magnetic gear (CMG) in which the permanent magnets...