Abstract: A method includes determining an identity of each sensor of a plurality of sensors arranged within an engine system and coupled to a harness of the engine system, loading a calibration for each sensor of the plurality of sensors from a memory based at least in part on the determined identity of the respective sensor, and determining a configuration of the plurality of sensors based at least in part on the determined identities of the plurality of sensors. The plurality of sensors includes exhaust sensors configured to monitor a flow property of engine exhaust.
Abstract: An apparatus is provided, which includes a dust detector, a voltage source, and a controller. The dust detector includes two opposing surfaces and a conductive dust sensor. The two opposing surfaces are disposed in spaced, opposing relation to allow for the passage of airflow between the surfaces, and the conductive dust sensor is disposed at a surface of the two opposing surfaces. The voltage source is configured and controlled to establish an electrostatic field at least partially between the two opposing surfaces to facilitate directing conductive particles in the airflow passing between the two opposing surfaces towards the dust sensor. The controller monitors for a leakage current within the conductive dust sensor and determines whether the leakage current exceeds a predetermined trigger level indicative of the presence of conductive dust, and if so, automatically indicates a conductive dust warning.
Type:
Grant
Filed:
January 17, 2012
Date of Patent:
February 10, 2015
Assignee:
International Business Machines Corporation
Inventors:
Joseph Kuczynski, Melissa K. Miller, Prabjit Singh, Heidi D. Williams, Jing Zhang
Abstract: In a method for detecting a replacement of sheathed-element glow plugs in an internal combustion engine, an electrical parameter of the sheathed-element glow plug is determined during a driving cycle and is compared with a stored value of the same electrical parameter of the sheathed-element glow plug that was determined in a preceding driving cycle. In the driving cycle, the same electrical parameter is determined for all sheathed-element glow plugs installed in the internal combustion engine, and the determined pattern of the electrical parameter is compared with a pattern that was ascertained in a preceding driving cycle, a replacement of a sheathed-element glow plug being detected if the pattern of the driving cycle deviates from a pattern of the preceding driving cycle.
Type:
Grant
Filed:
August 1, 2011
Date of Patent:
September 9, 2014
Assignee:
Robert Bosch GmbH
Inventors:
Rainer Moritz, Dirk Stockmann, Carsten Scholten, Peter Kappelmann
Abstract: One embodiment is a unique strategy for evaluating performance of a component of an internal combustion engine. More particularly, in one non-limiting form a method includes operating a component, such as a heating component, and measuring a first characteristic related to its operation. The method also includes operating an engine accessory and measuring a second characteristic related to its operation, and determining performance of the component by relating the first and second characteristics to one another. In one aspect, relating the first and second characteristics to one another provides a first value which is compared to a predetermined value, and performance of the component is determined from this comparison. Other embodiments include unique methods, systems, and apparatus for evaluating or monitoring the performance of a component of an internal combustion engine, and/or for performing a procedure for starting the internal combustion engine.
Abstract: A method is provided for detecting a tow start operation of an internal combustion engine in a motor vehicle. In this case, a signal representing the activity and/or inactivity of a starter unit of the internal combustion engine is detected. A tow start operation of the internal combustion engine is determined when, following detection of a successful start-up process of the internal combustion engine, the signal representing the activity and/or inactivity of the starter unit has not displayed any activity of the starter unit since the beginning of the start-up process of the internal combustion engine.
Type:
Grant
Filed:
August 19, 2009
Date of Patent:
November 19, 2013
Assignee:
Bayerische Motoren Werke Aktiengesellschaft
Inventors:
Dirk Abendroth, Werner Weigl, Peter Straehle
Abstract: In a method for detecting a replacement of sheathed-element glow plugs in an internal combustion engine, an electrical parameter of the sheathed-element glow plug is determined during a driving cycle and is compared with a stored value of the same electrical parameter of the sheathed-element glow plug that was determined in a preceding driving cycle. In the driving cycle, the same electrical parameter is determined for all sheathed-element glow plugs installed in the internal combustion engine, and the determined pattern of the electrical parameter is compared with a pattern that was ascertained in a preceding driving cycle, a replacement of a sheathed-element glow plug being detected if the pattern of the driving cycle deviates from a pattern of the preceding driving cycle.
Type:
Application
Filed:
August 1, 2011
Publication date:
September 5, 2013
Inventors:
Rainer Moritz, Dirk Stockmann, Carsten Scholten, Peter Kappelmann
Abstract: A method of sensing vehicle engine ignition status is disclosed wherein samples of only the electrical system voltage levels are used. Sampling voltages that drop sufficiently (in magnitude and quantity over a period of time) will signify an “engine off” state.
Abstract: An analysis tool which extracts all the available parameter identifications (i.e. PIDS) from a vehicle's power train control module for diagnostic decisions. This is done by checking these PIDS and other information (e.g., calculated PIDS, Break Points, charts and algorithms) in three states; key on engine off, key on engine cranking, key on engine running. In all three modes the tool is comparing the live data from PIDS and voltage to the other information (e.g., Break Points). If any of this data are outside the programmed values a flag is assigned to the failure or control problem. The relationship between a particular PID and its associated preprogrammed value(s) may be indicated by a light. The depth of the problem (if any) is conveyed by the color of the light. Also included are tests/charts for fuel trim, engine volumetric efficiency, simulated injector, power, catalyst efficiency, and engine coolant range.
Abstract: A method of calibrating throttle controls in an electronic shift and throttle system includes opening the throttle and then moving the throttle back towards a hard stop in increments. The voltage level of an electrical signal sent by a throttle position sensor is measured and recorded at each increment. An idle position is established as being where the lowest voltage level was measured when the throttle is at least 0.75° away from the hard stop.
Abstract: A method for testing a circuit of a D.C. electrical system in a motor vehicle that includes connecting a load bank (30) to a D.C. electrical source such as a battery bank (24) or an alternator (26) and wirelessly operating the load bank (36) to set the load that the load bank imposes on the D.C. source during circuit testing.
Type:
Application
Filed:
March 27, 2008
Publication date:
October 1, 2009
Applicant:
International Truck Intellectual Property Company LLC
Abstract: A method for switching between operating modes of an internal combustion engine having a plurality of control units, in particular a switchover between full-engine operation and half-engine operation, the control units being able to exchange data via a data link. The method includes a step in which it is checked whether an operating mode switchover should occur and that, if an operating mode switchover should occur, the data link between the control units is tested and/or the operating state of the control units is balanced.
Abstract: With devices and methods for reducing the contamination of a sensor, a sensor or sensor element—preferably a hot film air-mass meter—is deactivated when a software function integrated in the electronic control unit detects a possible contamination or a media carry-in. The sensor is deactivated using a high-side switch in the voltage supply or a low-side switch in the ground connection, wherein the media carry-in detection and the switch control are carried out by the control unit or an evaluation unit in the sensor. After the sensor is deactivated, a substitute signal is optionally generated that replaces the missing output signal of the sensor.