Patents by Inventor David R Pedro
David R Pedro has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 12221911Abstract: An axial cam shifting system configured to selectively open and close engine valves includes an axial cam shifting assembly and a controller. The axial cam shifting assembly includes a camshaft, a first cam assembly, an actuator, a carriage and a position sensor. The first cam assembly is received on the camshaft and has two distinct cam profiles. The actuator has a first pin and a second pin. The carriage is arranged on the camshaft and defines a track that selectively receives the first and second pins, wherein the axial shifting cam assembly is movable between a first, and a second position corresponding to alignment of the respective two distinct cam profiles. The position sensor communicates a signal indicative of a position of the carriage. The controller receives the signal and determines whether the carriage is in one of the first and second positions based on the signal.Type: GrantFiled: January 25, 2024Date of Patent: February 11, 2025Assignee: FCA US LLCInventors: Tyler Blake, David R Pedro, Joseph Falcon, Kurt E Roguse, Bindal Patel, Gary Michael Chad Starnes, Nicholas Firsich
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Patent number: 11993173Abstract: Battery management techniques for a vehicle include a set of sensors configured to measure a set of parameters of a battery of the vehicle and a controller configured to control recharging of the battery to a first target state of charge (SOC) corresponding to optimized battery life when a mileage of the vehicle is less than a threshold mileage corresponding to an expected transport period of the vehicle, wherein controlling the recharging of the battery to the first target SOC prevents battery malfunctions and thereby reduces vehicle warranty costs for an original equipment manufacturer (OEM) of the vehicle, and control recharging of the battery to a second target SOC determined by a cost-based optimization technique when the mileage of the vehicle reaches the threshold mileage.Type: GrantFiled: June 30, 2021Date of Patent: May 28, 2024Assignee: FCA US LLCInventors: Basil M Khaja, Joseph B Adams, David R Pedro, Rohit V Koli, Leo Bauer
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Patent number: 11739709Abstract: A port and direct fuel injection (PDI) fuel delivery system for a vehicle having an engine configured to selectively operate between a port fuel injection (PFI) mode, a gasoline direct injection (GDI) mode, and a PDI mode includes a PFI system including plurality of PFI injectors, and a GDI system including a plurality of GDI injectors. The PFI and GDI systems are configured to provide various split-ratios of fuel mass injection to the engine based on a particular engine operating condition. A controller is programmed to identify a known first long term fuel trim (LTFT) for a first split-ratio, identify a known second LTFT for a second split-ratio, generate a linear equation based on the known first and second LTFTs, and determine an unknown third LTFT for a third split-ratio by utilizing the linear equation to facilitate reducing fueling errors and emissions.Type: GrantFiled: August 4, 2022Date of Patent: August 29, 2023Assignee: FCA US LLCInventors: Nicholas Firsich, Alex Eskenazi-Gold, David R Pedro, William P Attard, Joseph D Falcon
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Publication number: 20230001821Abstract: Battery management techniques for a vehicle include a set of sensors configured to measure a set of parameters of a battery of the vehicle and a controller configured to control recharging of the battery to a first target state of charge (SOC) corresponding to optimized battery life when a mileage of the vehicle is less than a threshold mileage corresponding to an expected transport period of the vehicle, wherein controlling the recharging of the battery to the first target SOC prevents battery malfunctions and thereby reduces vehicle warranty costs for an original equipment manufacturer (OEM) of the vehicle, and control recharging of the battery to a second target SOC determined by a cost-based optimization technique when the mileage of the vehicle reaches the threshold mileage.Type: ApplicationFiled: June 30, 2021Publication date: January 5, 2023Inventors: Basil M. Khaja, Joseph B. Adams, David R. Pedro, Rohit V. Koli, Leo Bauer
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Patent number: 11329498Abstract: Charging control techniques for a vehicle including an engine that drives an alternator configured to charge a battery of the vehicle comprise modeling a fuel consumption of the alternator for each load level across a range of alternator loads using an engine torque model and a set of operating parameters of the engine, determining an energy output from the alternator for each load level across the range of alternator loads, calculating a cost-to-charge metric based on the modeled alternator fuel consumption and the determined alternator energy output for each duty cycle across a range of duty cycles of the alternator, determining an optimal cost-to-charge from the calculated cost-to-charge metrics, determining a target cost-to-charge metric based on a state of charge of the battery, and operating the alternator accordingly at an optimal duty cycle based on the metrics and current engine operating conditions.Type: GrantFiled: August 10, 2020Date of Patent: May 10, 2022Assignee: FCA US LLCInventors: David R Pedro, Arab Alsharif, Joydip Saha, Travis T Hamilton, Nikhil Patil, Geoffrey Giese, Basil M Khaja, Ganapathy Machamada Somaiah, Joseph B Adams, Paul Milligan
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Publication number: 20220045545Abstract: Charging control techniques for a vehicle including an engine that drives an alternator configured to charge a battery of the vehicle comprise modeling a fuel consumption of the alternator for each load level across a range of alternator loads using an engine torque model and a set of operating parameters of the engine, determining an energy output from the alternator for each load level across the range of alternator loads, calculating a cost-to-charge metric based on the modeled alternator fuel consumption and the determined alternator energy output for each duty cycle across a range of duty cycles of the alternator, determining an optimal cost-to-charge from the calculated cost-to-charge metrics, determining a target cost-to-charge metric based on a state of charge of the battery, and operating the alternator accordingly at an optimal duty cycle based on the metrics and current engine operating conditions.Type: ApplicationFiled: August 10, 2020Publication date: February 10, 2022Inventors: David R. Pedro, Arab Alsharif, Joydip Saha, Travis T. Hamilton, Nikhil Patil, Geoffrey Giese, Basil M. Khaja, Ganapathy Machamada Somaiah, Joseph B. Adams, Paul Milligan
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Patent number: 10760479Abstract: A control system and method for an engine including a turbocharger without a surge valve involve utilizing one or more pressure sensors configured to measure air pressure in an intake system of the engine, the intake system comprising a compressor of the turbocharger and a throttle valve downstream from the compressor, and a controller configured to control the engine to avoid surge at the compressor and eliminate a need for the surge valve by determining a desired position for the throttle valve based on a driver requested engine torque, determining a minimum mass flow through the compressor that avoids surge based on the measured air pressure in the intake system and a predetermined compressor map, and commanding the throttle valve to a target position to maintain at least the minimum compressor mass flow, wherein the target position is greater than the desired position, thereby avoiding surge at the compressor.Type: GrantFiled: June 26, 2018Date of Patent: September 1, 2020Assignee: FCA US LLCInventors: Ethan E Bayer, David R Pedro, David A Lawrence, Saikiran Chikine
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Patent number: 10655570Abstract: An evaporative emissions (EVAP) system and its method of control comprise commanding a three-way valve to fluidly connect an auxiliary vapor canister and a bottom portion of a fuel tank, controlling at least one of an engine of the vehicle and a purge pump of the EVAP system disposed between the engine, a separate primary vapor canister, and the auxiliary vapor canister to draws fuel vapor from the fuel tank into the auxiliary vapor canister for storage, commanding the three-way valve to fluidly connect the bottom portion of the fuel tank to an atmosphere outside of the EVAP system to generate additional fuel vapor in the fuel tank, commanding the three-way valve to fluidly connect the auxiliary vapor canister to the atmosphere, and controlling at least one of the engine and the purge pump to draw the fuel vapor from the auxiliary vapor canister into the engine.Type: GrantFiled: December 19, 2018Date of Patent: May 19, 2020Assignee: FCA US LLCInventors: Roger C Sager, Nithin Baradwaj, Joseph M, Matthew M Delleree, Gregg T Black, Jennifer Bartaszewicz, James J Daley, David R Pedro, Ruoming Gu, Edward E Baker
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Publication number: 20190390595Abstract: A control system and method for an engine including a turbocharger without a surge valve involve utilizing one or more pressure sensors configured to measure air pressure in an intake system of the engine, the intake system comprising a compressor of the turbocharger and a throttle valve downstream from the compressor, and a controller configured to control the engine to avoid surge at the compressor and eliminate a need for the surge valve by determining a desired position for the throttle valve based on a driver requested engine torque, determining a minimum mass flow through the compressor that avoids surge based on the measured air pressure in the intake system and a predetermined compressor map, and commanding the throttle valve to a target position to maintain at least the minimum compressor mass flow, wherein the target position is greater than the desired position, thereby avoiding surge at the compressor.Type: ApplicationFiled: June 26, 2018Publication date: December 26, 2019Inventors: Ethan E Bayer, David R Pedro, David A Lawrence, Saikiran Chikine