Abstract: A thrust washer retainer is provided and includes a first retainer portion, wherein the first retainer portion defines at least one first mating structure and includes a first interface structure, a second retainer portion, wherein the second retainer portion defines at least one second mating structure and includes a second interface structure, wherein the second retainer portion is disposed relative to the first retainer portion such that the first mating structure is associated with the second mating structure and a locking member having at least one locking structure, wherein the locking structure is associated with at least a portion of the first mating structure and the second mating structure such that the first retainer portion is non-movable relative to the second retainer portion.

Abstract: A hybrid energy railway vehicle system having a traction motor with a dynamic braking mode of operation for dynamically braking the traction motor and for generating dynamic braking electrical energy and an electrical energy storage system that is in electrical communication with the traction motor and that stores dynamic braking electrical energy generated by the traction motor. The system also has a hybrid energy railway vehicle with a plurality of wheels wherein the traction motor has a motoring mode of operation for driving one of the wheels in response to electrical input energy. A converter selectively provides stored electrical energy from the energy storage system to the traction motor as electrical input energy for driving one or more of wheels.

Abstract: A method and computer program product are provided for monitoring integrity of a railroad train and determining passage of the train relative to a plurality of virtual blocks defined by wireless transmissions along a section of track over which the train travels. The virtual blocks provide safeguards for the travel of the train relative to other trains on the section of the track when there is a shared use of the section of track. In aspects thereof, the method allows collecting data useful for evaluating conditions that may affect train integrity from at least one sensing device at a end of train location. The method further allows collecting data at a head-of-train location, with the data collected at the head-of-train corresponding to the type of data collected at the end-of-train location. The data collected at the end-of-train and at the head-of train location is processed to determine whether the entire train has cleared a respective one of the virtual blocks.

Abstract: A method, computer-readable code, and controller are provided for configuring a cycle-skipping control system having two or more cycle skippers connected to a common multi-phase AC (alternating current) power source to drive a variable frequency load. One or more circuit architectures (modified relative to a baseline circuit architecture) are provided. The modified circuit architectures enable at least some interconnections not enabled by the baseline circuit architecture when connected between the phases of the power source and the load phases. A respective firing sequence is generated to be applied to a plurality of power switches to the two or more cycle skippers with a modified circuit architecture for implementing a desired mode of operation.

Abstract: A method, computer-readable code, and controller are provided for controlling a cycle-skipping control system having at least one cycle skipper connected to a multi-phase AC (alternating current) power source to drive a variable frequency load. A respective firing sequence is generated to be applied to a plurality of power switches in the cycle skipper for implementing a desired mode of operation. The stream of pulses may be arranged to form a grouping of two or more closely adjacent pulses over a time interval, wherein each pulse grouping contributes a desired spectral power over the time interval, and further wherein each pulse grouping enables to spread the power over the time interval as compared to a single pulse having the desired spectral power, thereby reducing harmonic components in currents supplied by the power source.

Abstract: Method and system are provided for processing a new diagnostics case relative to historical case data for a machine undergoing diagnostics. The method allows providing a database storing historical case data for the machine undergoing diagnostics. The method further allows calculating a degree of similarity between the new case and respective cases stored in the database. A list of neighboring cases is determined relative to the new case based on the calculated degree of similarity between the new case and the respective cases stored in the database. The list of neighboring cases is processed to determine a ranking for possible corrective actions for the new case. A corrective action is selected for the new case based on the ranking of the possible corrective actions for the new case.

Abstract: A system and method for managing electrical power generated by an engine for use in connection with operating a hybrid energy off highway vehicle load control system. A load control circuit determines a current operating condition of the Off Highway Vehicle, and determines a corresponding target operating condition of the Off Highway Vehicle The load control system determines a difference between the current operating condition and a target operating condition to identify transients. The load control system delivers power from the power source to a energy storage for an initial period after a transient condition is identified and then delivers power from the power source to source to the traction motors to propel the Off Highway Vehicle. The load control system also retrieves to power from the energy storage to assist in propelling the Off Highway Vehicle.

Abstract: A system (40) for starting an internal combustion engine (12) of an automotive vehicle (10) has a controller (54) coupled to a starter/generator (42). The engine (12) has a crankshaft (50) and an engine accessory assembly that includes an electric motor (76) and a clutch (74). The controller (54) initiates the rotation of the crankshaft (50) with the starter/generator (42) and the electric motor (76) engaged to the crankshaft through the clutch (74), simultaneously. The controller (54) starts the engine (12) when the crankshaft (50) reaches a predetermined speed.

Abstract: A method of transitioning a motor from a torque control mode to a speed control mode includes providing the motor with a torque command to eliminate torque holes at the transition. A speed controller generates a speed error, which is used to generate two torque terms. The first torque term is proportional to the speed error, and the second torque term includes the integral of the speed error. A third torque term comprises a feedforward torque, which is added to the first two torque terms to generate the torque command.

Abstract: A system and method for controlling a variable displacement engine during cranking and starting period include a hybrid operating mode to allow intake/exhaust valve operation while preventing fuel delivery or spark, or both, to at least one subsequently deactivated cylinder or bank of cylinders during the cranking and starting period. The system and method provide advantages to starting the engine relative to either a variable displacement mode or a full activation mode.

Abstract: A tire pressure monitoring system (12) for a vehicle (10) has a plurality of tires (14a-d) in respective rolling locations having a respective plurality of tire transmitters (16a-d) that generate a respective plurality of transmitter identification signals. A respective plurality of initiators (20a-d) are fixedly attached to the vehicle at a respective plurality of locations. A controller (22) activates the plurality of initiators (20a-d) by generating a respective plurality of initiator signals from the plurality of initiators. The plurality of initiator signals has a first power level. The controller (22) increases the first power level incrementally to a final power level until the controller receives a sensor signal from each of the plurality of tire transmitters.

Abstract: An electrical system (12) is provided for an automotive vehicle (10) having a first power source (14) with a first positive terminal (16) and first negative terminal (18). A second power source (20) having a second positive terminal (22) and a second negative terminal (24) is also provided. A common electrical node N2 is coupled to the first negative terminal and the second positive terminal. A first load (26) is coupled between the first positive terminal and the second node N2. A second load (28) is coupled between the common node N2 and the second negative terminal (24). A DC-to-DC converter (80) is coupled to the first power source, the second power source and the common node.

Abstract: A vehicle system controller for a vehicle having an engine, a motor/generator, and subsystem controllers is provided. The vehicle system controller includes a state machine having a number of predefined states which represent vehicle operating modes. The predefined states include a motor drive state, which represents a vehicle operating mode wherein the motor/generator provides all driveline torques. The vehicle system controller further includes a set of rules which define logical relationships between each of the predefined states. A set of commands, unique to each state, are supplied to the subsystem controllers. The commands are provided to the subsystem controllers to achieve desired vehicle functionality within the states, and to transition between different states.

Abstract: The invention is an improved fuel cell system suited for application in a vehicle. Specifically, the invention provides an improved system to remove CO emissions that has a rapid dynamic response (about 1 second) and can operate over a wide range of temperatures (between 0 and 800 degrees Celsius). The fuel cell system comprises hydrogen fuel, a CO removal system based upon non-Faradaic electrochemical modification of catalyst activity (electrochemical promotion), and a fuel cell stack. The CO removal system comprises a catalyst/working electrode, an electrolyte, a counter electrode, and a power source. The CO removal system's intrinsic catalytic rate is greater than an intrinsic electrocatalytic rate. The catalyst can be Pt, Rh, Au, Cu/ZnO, Cu/CuO, ABO3(perovskite), zeolite, and Pd. The power source can be a battery, potentiostat, or galvanostat.

Abstract: A method for operating a variable compression ratio internal combustion engine includes the steps of determining a compression ratio operating state of the engine and inferring the air pressure within the engine's intake manifold, based at least in part on the compression ratio operating state of the engine.

Abstract: An automotive engine arrangement 7 is provided having a VCT unit 96 wherein a lubrication oil restrictor 152 is incorporated with the VCT unit oil filter 127. The arrangement 7 of the present invention allows for VCT unit oil filter 127 to be installed in a cylinder head 18 of an automotive engine block 10 wherein placement of the VCT unit oil filter 127 in the appropriate location automatically installs the restrictor.

Abstract: A battery current limiter and current-limiting method for a battery system and an electric motor in a hybrid automotive vehicle powertrain. The battery current limiter monitors measured battery current and torque commands. A modified current is developed to take a predetermined current margin into account. The modified current reduces battery current in a closed loop fashion simultaneously with a reduction in commanded torque by a feed-forward torque value.

Abstract: An online communication schema for reporting related to online ordering and tracking is provided. The communication schema comprises an order message having order information, order status, and dealer action information. The order message further includes a retail order message, and a tagged order message. The communication schema further comprises a lead message having lead information, lead status, and dealer action information.

Abstract: A method and an apparatus for allowing a vehicle to be braked in both a regenerative and a distributive type or frictional manner, thereby reducing the amount of energy which is dissipated as the vehicle is braked.

Abstract: A system and method for controlling a multi-cylinder internal combustion engine having at least one automatically controllable airflow actuator and an exhaust gas recirculation (EGR) system including an EGR valve include determining a desired manifold pressure based at least in part on position of the automatically controllable airflow actuator and controlling the EGR valve such that a measured manifold pressure approaches the desired manifold pressure. In one embodiment, the automatically controllable airflow actuators include a charge motion control valve and a variable cam timing device. In other embodiments, the automatically controllable airflow actuators may include variable valve lift devices, variable valve timing devices, or any other device that affects the residual exhaust gases within the cylinders.