Abstract: A hybrid or electric vehicle includes a lithium-ion battery and a controller. The controller is programmed to discharge the battery through an electrical load to a predetermined voltage less than a voltage associated with zero state of charge such that relative degrees of lithiation associated with the electrodes of the battery change for at least one state of charge resulting in an increase in battery maximum capacity. The controller may be on-board or off-board of the vehicle. The electrical load may be part of the vehicle or external to the vehicle.

Abstract: Methods and systems are provided for adjusting intake airflow through two induction passages. In response to increased torque demand, intake airflow may be directed through a first induction passage including an exhaust-driven turbocharger compressor and through a second induction passage including an electric compressor. Further, after the turbocharger compressor increases speed, intake airflow may be directed again through the first induction passage to further increase boost.

Abstract: An active bolster for an automotive vehicle includes a plastic-molded outer trim panel with a welding track on an inside surface and a plastic-molded expandable bladder member with a welding flange along a peripheral edge with a first surface facing the trim panel inside surface and a second opposed surface. The welding track and the welding flange are joined by a hot weld to form a sealed chamber. A plurality of counterbores are distributed over the welding flange in order to form rivets that mechanically strengthen the weld. Each counterbore is comprised of a neck portion penetrating the first surface and a head portion penetrating the second surface. Each head portion includes an internal ledge extending laterally from the neck portion. The hot weld includes plastic-molded material that flows from the welding track through each neck portion and spreading onto the internal ledge in each head portion.

Abstract: Systems and methods for improving launching of a stopped hybrid vehicle are presented. The systems and methods adjust speed of a motor to reduce lag between an increase in driver demand torque and torque being produced at vehicle wheels. In one example, motor torque is adjusted to a maximum motor torque to improve vehicle launch during select conditions where driver demand torque is not a maximum level.

Abstract: Methods and systems are provided for ventilating a crankcase in an engine. In one example, when the engine is operating boosted under cruising conditions, fuel vapors from the crankcase may flow to each of a compressor inlet and an intake manifold of the engine. In this way, the crankcase may be effectively purged.

Abstract: A vehicle includes axle housing, a differential and a ring gear, a scraper port, and a reservoir. The housing has a cover forming a heat exchanger having a coolant side and a lubricant side. The differential and ring gear are configured to pump a lubricating fluid. The scraper port is disposed at a bottom of the heat exchanger adjacent to the ring gear and is configured to direct the lubricating fluid through the lubricant side of the heat exchanger. The reservoir is disposed at a top of the heat exchanger and is configured to receive and store the lubricating fluid from the lubricant side of the heat exchanger.

Abstract: A tolerance compensator for a vehicle frame includes a base member having an upper portion in keyed engagement with a roof structure. The tolerance compensator also has an extension member that is threadably coupled with a lower portion of the base member. A fastener extends up from a body-side structure to threadably engage and move the extension member down into contact with the body-side structure before threadably engaging the base member.

Abstract: A traction battery assembly includes cells stacked in an array and a thermal plate positioned against the array. An interior of the thermal plate defines a C-channel formed from several chambers spanning a length of the array and configured to circulate fluid therein to facilitate heat transfer with the cells.

Abstract: Disclosed in more detail in this application are ethylene interpolymer films having one or more layers, comprising surface layer comprising: (A) a silane-containing ethylene interpolymer comprising (1) an ethylene interpolymer having a density of less than 0.905 g/cm3, and (2) at least 0.1 percent by weight alkoxysilane; characterized by: (3) having a volume resistivity of greater than 5×1015 ohm-cm as measured at 60 C. In one embodiment, such ethylene interpolymer has a residual boron content of less than 10 ppm and residual aluminum content of less than 100 ppm. Also disclosed are laminated electronic device modules comprising: A. at least one electronic device, and B. one of the ethylene interpolymer films as described above in intimate contact with at least one surface of the electronic device. Such laminated electronic device modules according to the invention have been shown to suffer reduced potential induced degradation (“PID”).

Abstract: The present disclosure provides a dielectric fluid composed of a genetically engineered microbial oil (GEMO) and an antioxidant. The GEMO includes a triglyceride and an amount of small glyceride. The amount of small glyceride is within a range from 0.1 wt % to 30 wt %, based upon the GEMO weight.

Abstract: An energy storage device and electrical component are secured under an access cover by a lock. A handle has a key portion that operates the lock. Removal of the handle from an electrical disconnect isolates the component electrically from the energy storage device. The lock is located such that the handle is removed from the disconnect to operate the lock.

Abstract: The present disclosure describes systems and methods for controlling the speed of a vehicle comprising: during a pulse phase of cruise control, applying engine torque to raise speed, the amount and duration of which being responsive to engine speed; and during a glide phase of cruise control, discontinuing engine combustion. In this way cruise control may maintain a mean speed equivalent to a desired, threshold speed while reducing fuel consumption, and NVH effects felt by the end user compared to traditional cruise control methods.

Abstract: A transmission and control method are disclosed which ensure proper stroke pressure and minimize torque transients during a shift event. The transmission includes a clutch having a torque capacity based on a fluid pressure, a torque sensor adapted to measure a torque value that varies in relationship to the torque capacity, and a controller. The method includes varying the fluid pressure around a predetermined value, measuring a resulting torque difference with the torque sensor, and adjusting a clutch control parameter if the resulting torque difference is less than a threshold value.

Abstract: Systems and methods for improving operation of a hybrid vehicle are presented. In one example, driveline operating modes may be adjusted in response to driving surface conditions. The approaches may improve vehicle drivability and reduce driveline degradation.

Abstract: A vehicle includes an engine and is at least partially propelled by a fraction battery and a traction motor. A clutch is configured to be coupled to the traction motor. An electrical and/or mechanical pump provides pressure to control the clutch. At least one controller determines if the clutch is slipping. In response to the clutch slipping, the at least one controller commands an increase in speed of an input of the clutch such that the available line pressure to control the slipping of the clutch is increased. The line pressure is then applied to the clutch in order to control the slipping of the clutch.

Abstract: An independent wheel suspension for the non-driven wheels of a vehicle comprises a wheel carrier for rotatably mounting a wheel of the vehicle, the wheel carrier being connected to a first transverse link and a second transverse link. The first transverse link is configured to be torsionally stiff and comprises a U-shaped opening in the link. The first transverse link is connected to the vehicle body via two link bearings on a body side and is connected to the wheel carrier via two link bearings on a wheel carrier side. The wheel suspension includes a bearing spring supported on the vehicle body and on the wheel carrier and positioned within the U-shaped opening of the first transverse link.

Abstract: A hybrid vehicle includes an engine and an electric machine, both capable of propelling the vehicle. The electric machine is electrically connected to a high voltage traction battery. The state of charge of the battery can decrease if the battery is used to power the electric machine, and can increase if the electric machine supplies power to the battery via regenerative braking. Constraints are placed on the vehicle such that the battery operates within a preferred operating window, defined between minimum and maximum state of charge thresholds. At least one controller is programmed to alter the preferred operating window of the battery in response to various vehicular activities, such as when the vehicle is towing another object, or when the vehicle weighs above a certain threshold due to contents within the vehicle, for example.

Abstract: The application relates to spark initiation under varied aircharge density and composition. An engine is disclosed comprising at least two cylinders with spark plugs therein; an integrated exhaust manifold, the integrated exhaust manifold having a wall portion and an adjustable shutoff element within the wall portion wherein the wall portion divides exhaust pipes of the at least two cylinders and the adjustable shutoff element allows exhaust gas from a first cylinder into an exhaust pipe of an adjacent cylinder. Hot exhaust gas may be taken into an adjacent cylinder serving as ignition gas and allowing the engine of the present disclosure to undergo spark ignition at low loads, or autoignition at high loads.

Abstract: Data is obtained concerning at least one attribute of a vehicle operator. The attribute is used to determine an instruction for positioning a vehicle component during autonomous operation of the vehicle. Autonomous operation of the vehicle, including positioning the vehicle component according to the instruction, is performed.