Fuel multiplier transfer from dynamic crankshaft fueling control to oxygen sensor operation

Assignee

• Chrysler Group LLC · US

Inventors

• Kenneth P. DeGroot · Macomb Township, US
• Bruce H. Teague · Grosse Pointe Park, US
• Gregory T. Weber · Wixom, US
• Jeremy Smith · Farmington, US

Key dates

Classification

• Technology area (CPC F)Mechanical Engineering; Lighting; Heating
• CPC primaryF02D2200/1015
• WIPO fieldEngines, pumps, turbines
• WIPO sectorMechanical engineering

Abstract

A method is provided for controlling the delivery of fuel to an engine of an automotive vehicle equipped with a dynamic crankshaft fuel control system and an oxygen sensor feedback based fuel control system. The method includes determining an averaged combustion metric from the dynamic crankshaft fuel control system. The combustion metric is compared to an allowable engine roughness value and a dynamic crankshaft fuel control fuel multiplier is adjusted based on the comparison via a proportional-integral-derivative control calculation. Thereafter, the integral term of the dynamic crankshaft fuel control system's proportional-integral-derivative control calculation is stored. If it is time to switch fuel control from the dynamic crankshaft fuel control system to the oxygen sensor feedback fuel control system, the stored integral term of the dynamic crankshaft fuel control system's fueling multiplier is transferred to the proportional-integral-derivative calculation of the oxygen sensor feedback fuel control system. As such, the last integral term used in determining the fuel multiplier of the dynamic crankshaft fuel control system is used as the first integral term determining the f…