| Patent application number | Description | Published |
|---|
| 20090038583 | MULTI-INJECTION COMBUSTION CYCLE SYSTEMS FOR SIDI ENGINES - The fuel injection system includes a fuel injector that injects fuel directly into a combustion chamber of a cylinder of an engine. The control module initiates multiple fuel injections in a combustion chamber during a combustion cycle of the cylinder via the fuel injector. | 02-12-2009 |
| 20090150059 | COLD START EMISSION STRATEGY FOR HYBRID VEHICLES - An engine control module includes an engine starting module that communicates with an electric motor to operate an internal combustion engine including M fuel injectors and that determines whether manifold pressure is below a manifold pressure threshold. A warming module communicates with the M fuel injectors to inject fuel into N of M the fuel injectors when the manifold pressure is less than the manifold pressure threshold. N and M are integers and N is less than M. | 06-11-2009 |
| 20090293450 | COLD-START CONTROL SYSTEMS FOR INTERNAL COMBUSTION ENGINES - A cold-start control system includes an air pump control module that controls an air pump and an engine starting module that starts an engine. The air pump control module activates the air pump to supply oxygen to a catalytic converter based on a temperature of the catalytic converter. The engine starting module starts the engine based on the temperature of the catalytic converter. | 12-03-2009 |
| 20100095652 | EMISSION REDUCTION SYSTEM FOR TURBO CHARGED ENGINE - An emissions reduction system includes an emissions control module that selectively controls fuel injection at a lean A/F ratio based on a first temperature of a catalytic converter and that selectively turns on an electrically heated catalyst (EHC) based on the first temperature. A fuel injection module selectively injects fuel into an engine cylinder during an expansion stroke based on a second temperature of the EHC. | 04-22-2010 |
| 20100115921 | CATALYTIC COMBUSTOR STRATEGY USING HC ADSORBER - A vehicle system includes a hydrocarbon adsorber, a catalyst, a control module, and a heater. The hydrocarbon adsorber receives first exhaust gases, adsorbs hydrocarbons from the first exhaust gases, and outputs second exhaust gases. The catalyst receives the second exhaust gases. The control module controls a heater and fuel injectors. The heater heats a portion of the catalyst to a predetermined temperature. The control module controls the fuel injectors to generate a fuel-rich air/fuel mixture when the portion of the catalyst is heated to the predetermined temperature. | 05-13-2010 |
| 20100212981 | SYSTEM AND METHOD FOR CONTROLLING AN ELECTRICALLY HEATED CATALYST FOR A HYBRID VEHICLE - A system and control module for controlling an electrically heated catalyst includes a remote start module generating a remote start signal, a catalyst control module controlling the electrically heated catalyst based on the remote start signal and an engine control module starting the engine after preheating and/or when required by the vehicle to honor a request as defined in this document. | 08-26-2010 |
| 20100305829 | ETHANOL CONTENT DETERMINATION SYSTEMS AND METHODS - A combustion control system for a vehicle comprises a position determination module and an ethanol determination module. The position determination module determines a crankshaft angle where a predetermined percentage of a fuel was combusted within a cylinder of an engine during an engine cycle based on one of pressure within the cylinder measured by a cylinder pressure sensor during the engine cycle and torque on a crankshaft measured by a torque sensor during the engine cycle. The ethanol determination module determines an ethanol content of the fuel based on the crankshaft angle. | 12-02-2010 |
| 20100305830 | CONTROL SYSTEMS AND METHODS FOR FUEL AND SECONDARY AIR INJECTION - An engine control system comprises an actuator control module and a tertiary injection module. The actuator control module provides secondary air to an exhaust system when a catalyst light-off mode is enabled and provides first and second injections of fuel to a cylinder during each engine cycle while the catalyst light-off mode is enabled. The tertiary injection module selectively provides a third injection of fuel to the cylinder during an exhaust phase of each engine cycle while the catalyst light-off mode is enabled. The first, second, and third injections are each separated by a period of time. | 12-02-2010 |
| 20100313549 | DESULFATION SYSTEMS AND METHODS FOR LEAN NOx TRAP (LNT) - A desulfation control system includes a desulfation control module and a spark control module. The desulfation control module initiates a desulfation process in an emission reduction device by increasing temperature of the emission reduction device. The spark control module retards a spark timing to increase the temperature of the emission reduction device in response to the desulfation control module initiating the desulfation process. | 12-16-2010 |
| 20100313845 | SYSTEMS AND METHODS FOR STABILIZING TORQUE DURING MODE TRANSITION IN DIRECT INJECTION ENGINES - An engine mode control system for an internal combustion engine includes a transition control module and an intake cam phaser control module. The transition control module controls a transition from a first engine mode to a second engine mode and determines a desired air mass. The engine is operated at a first air/fuel ratio (AFR) in the first engine mode and at a second AFR in the second engine mode. The desired air mass is based on the second AFR. The intake cam phaser control module adjusts the intake cam phaser based on the desired air mass during the transition. | 12-16-2010 |
| 20100318281 | FUEL CONTROL STRATEGY FOR HEATING A CATALYST - A control system for an engine having N cylinders in first and second banks includes a catalyst heat module and a fuel control module. N is an integer greater than two. The catalyst heat module selectively operates the engine in a catalyst heat mode to heat a catalyst. The fuel control module, throughout a fuel injection sequence for each of the N cylinders, adjusts a first air/fuel (A/F) ratio for the first bank to a rich value and adjusts a second A/F ratio for the second bank to a lean value. | 12-16-2010 |
| 20110030344 | RADIANT HEATING SYSTEMS AND METHODS FOR CATALYSTS OF EXHAUST TREATMENT SYSTEMS - An exhaust treatment system comprises M three-way catalysts and N electrically heated catalysts (EHCs). The M three-way catalysts are arranged to receive exhaust gas output by an engine of a hybrid vehicle. M is an integer greater than one. The N EHCs are arranged to receive the exhaust gas and provide radiant heat to the M three-way catalysts when the N EHCs are powered. N is an integer greater than one. | 02-10-2011 |
| 20110047980 | ENGINE CONTROL SYSTEMS AND METHODS FOR MINIMIZING FUEL CONSUMPTION - An engine control system comprises a temperature control module and an engine disabling module. The temperature control module regulates a first temperature of an electrically heated catalyst (EHC) based on a first predetermined light-off temperature while an engine is shut down. The engine disabling module selectively disables start up of the engine when a second temperature of a passive catalyst is less than a second predetermined light-off temperature while a maximum torque output of an electric motor is greater than a desired torque output. | 03-03-2011 |
| 20110047981 | CATALYST TEMPERATURE CONTROL SYSTEMS AND METHODS FOR HYBRID VEHICLES - A catalyst temperature control system of the present disclosure includes a vehicle start anticipation module and an electrically heated catalyst (EHC) control module. The vehicle start anticipation module determines whether a vehicle start is anticipated based on at least one of a plurality of vehicle conditions before an ignition switch is turned on. The EHC control module activates an EHC based on the determination. | 03-03-2011 |
| 20110078999 | STATE OF CHARGE CATALYST HEATING STRATEGY - A control system includes a state of charge module and a control module. The state of charge module receives a parameter associated with a battery in a vehicle and determines a state of charge of the battery based on the parameter. The control module activates a heater in a catalytic converter in an exhaust system of the vehicle based on the state of charge. | 04-07-2011 |
| 20110106392 | METHOD AND SYSTEM FOR DETECTING A FAULT DURING CATALYST LIGHT-OFF - A system and method for controlling engine operation includes a timer module that determines a time period from when a catalyst light-off mode is entered to when an oxygen sensor signal reaches an oxygen sensor threshold and a comparison module that generates an error signal and determines when the time period is above a time threshold. | 05-05-2011 |
