In one embodiment, there is disclosed a modular, blast resistant suspension module for an armored vehicle. Each suspension module has a first and second axle assembly. The first axle assembly has a Short-Long Arm (SLA) suspension system pivotally connected to a blast resistant differential housing and the second axle assembly has a Road Arm (RA) suspension system pivotally connected to the differential housing. The suspension modules may be used to form 44 or 88 vehicle configurations.

A controller causes a clutch to transition from a half-engaged state to an engaged state when a difference in rotational velocity between input and output sides of the clutch falls within a predetermined range in the half-engaged state of the clutch. The controller executes a moving start control to increase an output rotational velocity of a prime mover and cause the clutch to transition to the engaged state when a predetermined first condition is satisfied in the half-engaged state of the clutch.

A lightweight vehicle includes a pair of rear wheel assemblies, a pair of front wheel assemblies, a chassis, a front suspension system coupling the pair of front wheel assemblies to the chassis, a rear suspension system coupling the pair of rear wheel assemblies to the chassis, a frontmost seat supported by the chassis, a rearmost seat supported by the chassis where at least a portion of the rearmost seat is located longitudinally rearward of an axis extending through a center of the pair of rear wheel assemblies, a first footwell associated with the frontmost seat, a second footwell associated with the rearmost seat where the first footwell and the second footwell are coplanar, and an electric motor configured to drive the pair of rear wheel assemblies and at least partially positioned beneath the rearmost seat.

A lightweight vehicle includes a pair of rear wheel assemblies, a pair of front wheel assemblies, a chassis, a front suspension system coupling the pair of front wheel assemblies to the chassis, a rear suspension system coupling the pair of rear wheel assemblies to the chassis, a frontmost seat supported by the chassis where the frontmost seat includes a first seat bottom and a first seat back, a rearmost seat supported by the chassis and facing forward where the rearmost seat includes a second seat bottom and a second seat back, a floorboard coupled the chassis, and an electric motor configured to drive the pair of rear wheel assemblies and at least partially positioned beneath the second seat bottom. At least a portion of the rearmost seat is located longitudinally rearward of an axis extending through a center of the pair of rear wheel assemblies.

A lightweight electric vehicle includes a chassis, a pair of rear wheel assemblies, a pair of front wheel assemblies, a front suspension system, a rear suspension system, a pedestal supported by the chassis, a frontmost seat supported by the pedestal, a rearmost seat configured to accommodate a plurality of occupants and supported by the chassis, a floorboard coupled the chassis, and an electric motor configured to drive at least one of the pair of front wheel assemblies or the pair of rear wheel assemblies. The rearmost seat faces forward. At least a portion of the rearmost seat is located longitudinally rearward of an axis extending through a center of the pair of rear wheel assemblies. The floorboard is substantially flat such that a first footwell in front of the frontmost seat and a second footwell in front of the rearmost seat are coplanar.

A vehicle may include a CVT unit or a power source which requires ambient air. An air inlet for an air intake system coupled to the CVT unit or the power source which requires ambient air may be provided in a side of a cargo carrying portion of the vehicle. The vehicle may include a rear radius arm suspension.

Embodiments of the present disclosure relate to youth electric recreational vehicles. In an exemplary embodiment, a youth recreational vehicle, comprises: one or more front ground engaging members, one or more rear ground engaging members, and a frame supported by the one or more front ground engaging members and the one or more rear ground engaging members. In addition, the youth recreational vehicle comprises a seat supported by the frame and configured to support at least one rider and an electric powertrain. The electric powertrain is configured to drive at least one of: (i) the one or more front ground engaging members and (ii) the one or more rear ground engaging members. The electric powertrain comprises: a controller, at least one electric motor, and at least one battery pack.

A recreational off-highway vehicle includes side-by-side passenger and driver seats held within a chassis that is approximately 50 inches wide. The seats sit low in the chassis and are covered by a roll cage. Grab handles are positioned on the sides of the passenger seat. Select large round tubing protects the vehicle, while rectangular tubing frames the portions of the vehicle beneath body panels. The vehicle is powered by an engine rearward of the seats that is connected to a transaxle. The engine and transaxle are isolation mounted together with a portion of the air intake assembly. The vehicle is suited for rough terrain travel.

A vehicle is provided including an electronic power steering system, an electronic throttle control system, and a stability control system.

In one embodiment, a utility vehicle includes a plurality of ground-engaging members configured to contact a ground surface, and a powertrain assembly operably coupled to the ground-engaging members. The utility vehicle also includes a frame supported by the ground-engaging members and extending along a longitudinal axis of the utility vehicle. The utility vehicle further includes a tunnel member coupled to the frame and extending along the longitudinal axis. The tunnel member is positioned at a first height from the ground surface. Additionally, the utility vehicle includes a cargo portion supported by the frame and positioned generally rearward of the tunnel member. The cargo portion has a cargo surface substantially aligned with the tunnel member and positioned at a second height from the ground surface. The first height is approximately equal to the second height.