Abstract: A method is provided for controlling an engine having an intake manifold and an outlet control device coupled to the manifold for controlling flow exiting the manifold and entering at least one cylinder of the engine. The engine further includes an inlet control device for controlling flow entering the manifold. The method includes providing an engine command; calculating a desired cylinder charge based on said command; and adjusting the outlet control device to provide said desired cylinder charge. The engine command may be, for example, a driver command, such as a driver torque command. Further, the outlet control device may be implement in with a variety of mechanisms. For example, in one embodiment the outlet control device is a valve of the engine having a variable lift. In one embodiment the outlet device is a valve having variable timing. Likewise, the inlet device may be adjusted in response to a variety of parameters.

Abstract: A method for providing brake boosting in a hybrid motor vehicle having a brake boosting system powered by an internal combustion engine and by an auxiliary brake boosting device includes monitoring the output of an auxiliary brake boosting device not driven by the engine, and in the event that the auxiliary brake boosting device is not operating properly, starting the internal combustion engine associated with the vehicle to provide a desired level of brake boost.

Abstract: A device for estimating the loading state of a NOx storage catalytic converter. The device includes a module for determining the oxygen concentration difference between an oxygen concentration present in the exhaust gas upstream of the NOX storage catalytic converter and an oxygen concentration present in the exhaust gas downstream of the NOX storage catalytic converter, and a controller for estimating the loading state of the NOX storage catalytic converter on the basis of said oxygen concentration difference.

Abstract: A door for an automotive vehicle provides a tailored space to receive a door window if the window is opened.

Abstract: A system for an engine, comprising of a cylinder of the engine; a first injector configured to inject a first substance to said cylinder; a second injector configured to inject a second substance to said cylinder; and a controller configured to commence combustion in the engine by injecting fuel into said cylinder, where said fuel is injected by only one of said first and second injectors during said start and/or warm-up.

Abstract: A method for controlling a diesel engine in a vehicle is presented. The engine comprises at least one cylinder, a fuel injector for each cylinder for injecting fuel into the respective cylinder, and a throttle valve for controlling the flow of air into the cylinder. The throttle valve is adjusted to assume a not fully open position if an amount of fuel injected into the at least one cylinder is equal to or less than a fuel injection threshold value.

Abstract: A method is disclosed for managing power in a hybrid electric vehicle powertrain having multiple components, including an engine, a motor, a generator and a high voltage battery. Power losses in the individual components are computed. An engine speed corresponding to a minimum value for the power losses is selected to achieve optimal total powertrain efficiency.

Abstract: A four wheel drive powertrain control for an automotive vehicle is disclosed. It includes a torque transfer case that distributes power from an engine-powered transfer case mainshaft to a secondary driving axle through a friction clutch as power is distributed directly from the engine-powered mainshaft to a primary driving axle. The friction clutch capacity is sufficient to mechanically lock the transfer case in a four wheel drive mode. If the clutch torque capacity is exceeded, a control algorithm will strategically ramp down engine torque requests by a powertrain controller to eliminate clutch slip.

Abstract: An engine lubrication oil flow control system and control method for an engine in a hybrid electric vehicle powertrain is disclosed. An engine lubrication oil pump is powered by a lubrication oil pump motor. Provision is made to start the lubrication pump motor at the initiation of engine cranking upon a transition from an engine-off driving mode to an engine-on driving mode. An engine oil pressure signal is used to indicate engine filter maintenance is needed. The oil pump motor may be powered by a vehicle powertrain traction battery.

Abstract: An oil supply system for an internal combustion engine camshaft includes an oil distribution block configured for attachment to an engine structure adjacent to and above a camshaft, with attachment of the oil distribution block occurring after the camshaft has been installed in the engine. Fixed and movable ring segments, which are mounted to the oil distribution block, cooperate to provide the camshaft with oil under pressure, which may be used for controlling auxiliary devices such as a camshaft phaser or camshaft profile switching mechanism.

Abstract: A method for operating an engine in a vehicle, the engine having at least a cylinder, the method comprising generating engine braking torque to stop rotation of the engine in a desired range by opening and closing at least an electrically actuated valve of the cylinder more than once during a cycle of the cylinder.

Abstract: A method of tracking automotive production in the manufacture of automotive vehicles (10) is provided. The method includes manufacturing a plurality of automotive vehicles along an assembly line (12). Each of the plurality of automotive vehicles having a build characteristic (13). The build characteristics varying among the plurality of automotive vehicles. The method includes installing a radio frequency transmitter within each of the plurality of automotive vehicles as they move along the assembly line (16). Each of the radio frequency transmitters generating a unique identifier signal (20). Associating each unique identifier signal with the build characteristics of one of the plurality of automotive vehicles (34). The method includes transferring the plurality of automotive vehicles to a plant storage lot as they exit the assembly line (14). The method includes receiving the unique identifier signals (30).

Abstract: A method for controlling valve timing for and engine having adjustable valve timing is presented. In one embodiment, the method allows the intake valve timing to be controlled with respect to exhaust valve timing or the method allows the exhaust valve timing to be controlled with respect to intake valve timing. In addition, the method can bound valve overlap between upper and lower limits so that engine emissions and fuel economy may be improved.

Abstract: The invention generally relates to an improvement of conventional Hydraulically Power Assisted Steering system (HPAS-system) arranged to supply a steering assist force to the steering assembly of a vehicle as a response to a torque applied by a driver to the steering wheel. In such HPAS-systems a certain drivers torque always results in a certain assist force. The invention therefore discloses a valve that can be actuated to dynamically alter the steering assist force produced by the HPAS-system. This makes it possible to dynamically adjust the assist force so that an appropriate force may be delivered to fit the specific driving scenario.

Abstract: An automotive body structure member is formed through a hydroforming manufacturing process that incorporates an angularly oriented mounting face for the attachment of a pre-assembled modular component. The mounting face can be formed to recess into the surrounding structure of the structure member or to project outwardly therefrom. The mounting face is oriented obliquely to both the horizontal and vertical faces of the structure member to permit the insertion of fasteners into the mounting face at an angle that facilitates the mounting of the pre-assembled component. The assembly of the component to the structure member can be accomplished by a tool without interference with the component.

Abstract: A system for communicating information between a first controller and a second controller is presented. The system is designed to improve and increase the robustness data transferred between two controllers.

Abstract: An engine cover for a vehicle includes a frame extending generally about the perimeter of the cover and adapted for mounting to an engine of the vehicle, and a skin extending across and secured to the frame. In one embodiment, the frame is made of a moulded plastic material and the skin is a stamped metal, such as aluminum. In another embodiment, the skin comprises multiple sections each secured to the frame so that one or more sections may be modified to alter the appearance of the cover and/or location of service items, such as an oil fill cap or dip stick for different applications while minimizing the number of components that need modification. A method for covering an engine according to the present invention includes securing at least one engine cover skin to an engine cover frame and securing the frame to an engine.