Patent application number | Description | Published |
20080319633 | Device and Method for Controlling Internal Combustion Engine - The internal combustion engine has a valve driving mechanism (VM) capable of changing the valve-opening characteristic of at least one of an intake valve (Vi) and an exhaust valve (Ve), an in-cylinder pressure sensor for detecting the in-cylinder pressure in a combustion chamber and ECU. ECU calculates the variation amount of the in-cylinder pressure caused by the valve-overlap of the intake valve (Vi) and the exhaust valve (Ve), and based on this variation amount of the in-cylinder pressure and the in-cylinder pressure detected at a predetermined timing in the compression stroke, calculates an amount of air sucked in the combustion chambers, as well as, based on this calculated intake air amount, determines the ignition timing. The amount of air sucked in the combustion chamber is accurately and costlessly calculated, and the ignition timing is optimally determined by using the calculated air amount. | 12-25-2008 |
20090078235 | Control System and Method for Internal Combustion Engine - A control system includes: a detecting device that detects the transition in the cumulative amount of heat generated in a combustion chamber based on the pressure in the combustion chamber in an expansion stroke; and a controller that controls the amount of exhaust gas contained in an air-fuel mixture in the combustion chamber such that the amount of change in the cumulative amount of heat generated in the combustion chamber through a predetermined crank angle range will become a predetermined value. | 03-26-2009 |
20100089363 | CONTROL APPARATUS OF INTERNAL COMBUSTION ENGINE - An internal combustion engine ( | 04-15-2010 |
20100206092 | Force detection element - A temperature compensated force detection element is provided with a substrate, an insulation layer disposed above the substrate, and a p-type semiconductor layer disposed above the insulation layer, and a positive electrode and a negative electrode disposed apart from each other above the p-type semiconductor layer. A gauge portion being electrically connected to the positive electrode and having a higher impurity concentration than the p-type semiconductor layer, and an n-type region electrically connected to the negative electrode are formed in the p-type semiconductor layer. | 08-19-2010 |
20100318280 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - In this apparatus, maintaining control (time t | 12-16-2010 |
Patent application number | Description | Published |
20080201056 | Internal Combustion Engine Control Device and Method - An ECU of an internal combustion engine estimates an anticipated air amount in response to a demand for the internal combustion engine and causes an injector to inject an initial amount of fuel determined in accordance with the anticipated air amount so that an air-fuel ratio of a mixture in a combustion chamber is lower than a target value, and thereafter, calculates an amount of intake air aspired into the combustion chamber based on an in-cylinder pressure in the combustion chamber at a given timing during a compression stroke and before ignition, and causes the injector to inject a correction amount of fuel determined based on the calculated amount of the intake air and the initial amount of the fuel so that the air-fuel ratio of the mixture in the combustion chamber corresponds to the target value. | 08-21-2008 |
20100049422 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - In an internal combustion engine control device having an air-fuel ratio control device that controls the fuel injection amount so that the air-fuel ratio of exhaust gas of an internal combustion engine approaches a target stoichiometric air-fuel ratio, the control device further includes a device that calculates the lower calorific value of fuel, and a device that sets the target stoichiometric air-fuel ratio from the calculated lower calorific value based on a known relationship between the lower calorific value and the stoichiometric air-fuel ratio. It becomes possible to perform the air-fuel ratio control according to the fuel property by utilizing the relationship between the calorific value and the stoichiometric air-fuel ratio. | 02-25-2010 |
20100071659 | CONTROL APPARATUS OF INTERNAL COMBUSTION ENGINE - This control apparatus estimates a full combustion correspondence period CP, which is the period from an ignition timing SA to a combustion completion time CAe, and controls a VVT advancement amount (burnt gas quantity, overlap period, intake valve open timing) such that the estimated full combustion correspondence period CP coincides with a constant target full combustion correspondence period CPtgt. The full combustion correspondence period CP substantially maintains a one-to-one relation with the VVT advancement amount at which HC, CO | 03-25-2010 |
20100095933 | CONTROL DEVICE OF THE INTERNAL COMBUSTION ENGINE - A control device of an internal combustion engine that can accurately estimate an NOx concentration in exhaust gas by using a cylinder internal pressure as basic data. A cylinder internal pressure sensor provided to the internal combustion engine detects a cylinder internal pressure P | 04-22-2010 |
20100241333 | CONTROL APPARATUS AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - A primary opening amount setting device sets a primary throttle valve opening amount based on an accelerator-pedal operation amount determined by an accelerator operation amount determination device. An injection amount calculation device sets a fuel injection amount based on the primary throttle valve opening amount. A first index value determination device determines a first index value that indicates a state of combustion of an air-fuel mixture in a cylinder of an engine. A secondary opening amount setting device sets a secondary throttle valve opening amount, which is a final target value of an opening amount of a throttle valve, based on the first index value. | 09-23-2010 |
20110301828 | CONTROL APPARATUS AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - In a control apparatus, when an engine is cranked, “an air-fuel mixture (an air-fuel mixture used for determination of fuel property) including fuel in a first predetermined fuel amount TAUm and air in a first predetermined air amount Mcm”, which generates torque that does not make the engine autonomously operate, is formed in a first cylinder (cylinder used for determination of the fuel property), and the air-fuel mixture is ignited and combusted by a spark at an ignition timing after a compression top dead center. Further, the control apparatus determines “an amount of heat generated per unit mass of the fuel” when the air-fuel mixture is combusted in the first cylinder, and determines a property of the fuel based on the amount of generated heat. | 12-08-2011 |