Patents by Inventor Daniel D. Wilhelm
Daniel D. Wilhelm 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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Publication number: 20110113756Abstract: A method includes providing a system having a fluid flow, a fuel injector and an oxygen sensor disposed in the fluid flow, where the oxygen sensor is downstream of the fuel injector. The method includes determining a first air fuel ratio, changing an injection rate of the fuel injector and determining a second air fuel ratio, and determining a fault value for the fuel injector from the first air fuel ratio and the second air fuel ratio. The method further includes determining the fault value for the fuel injector by determining a difference between the first air fuel ratio and the second air fuel ratio, and by determining that the fault value is positive in response to the difference being lower than a passing threshold value. The method includes changing injection rates of the fuel injector for specified periods of time short enough to significant disruption of system temperatures.Type: ApplicationFiled: November 13, 2009Publication date: May 19, 2011Inventors: Aleksey Yezerets, Pradeep Prasad, Yuetao Zhang, Daniel D. Wilhelm, Neal W. Currier
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Publication number: 20110047973Abstract: According to one embodiment, an apparatus for controlling regeneration events on multiple diesel particulate filters (DPFs) of an exhaust after-treatment system includes a regeneration event synchronization module and regeneration event termination module. The regeneration event synchronization module is configured to simultaneously initiate a regeneration event on a first DPF and a regeneration event on a second DPF in response to a regeneration event request being triggered for one of the first and second DPFs. The regeneration event termination module is configured to terminate the regeneration event on the first DPF and the regeneration event on the second DPF. Under normal operating conditions, the termination of the regeneration event on the first DPF is performed independently of the termination of the regeneration event on the second DPF.Type: ApplicationFiled: August 24, 2010Publication date: March 3, 2011Applicant: CUMMINS IP, INCInventors: Daniel D. Wilhelm, Balbahadur Singh
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Publication number: 20110016849Abstract: In one embodiment, an apparatus for determining a deterioration of a NOx sensor response rate in an internal combustion engine system includes an engine control module configured to stop fueling to an internal combustion engine during motoring of the internal combustion engine. The apparatus also includes a signal monitoring module configured to monitor a NOx sensor signal after the engine control module stops fueling to the internal combustion engine during motoring of the engine and store NOx sensor signal data corresponding to the monitored NOx sensor signal. Additionally, the apparatus includes a time constant module that is configured to determine a time constant of the NOx sensor response after the engine control module stops fueling. The apparatus further includes a response rate deterioration module configured to determine a response rate deterioration value of the NOx sensor based at least partially on the determined time constant.Type: ApplicationFiled: June 24, 2010Publication date: January 27, 2011Applicant: CUMMINS IP, INCInventors: Jeff Runde, Xiao Lin, Daniel D. Wilhelm, David Everard, Carlos A. Lana
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Patent number: 7788911Abstract: A system, method and computer operable code is disclosed for reducing HC and liquid accumulation in an exhaust gas treatment system. A timer is used to monitor the amount of time the system spends in either absorption mode or desorption mode. If the exhaust gas temperature at the inlet of a oxidation catalyst device is below an absorption threshold, the timer is instructed to count up. If the exhaust gas temperature is above a desorption threshold, the timer is instructed to count down. At a predetermined timer threshold value, the engine is instructed to enter a thermal management mode operable to reduce accumulation of HC and liquid in the exhaust gas management system.Type: GrantFiled: July 21, 2006Date of Patent: September 7, 2010Assignee: Cummins Filtration, Inc.Inventors: Yuetao Zhang, Daniel D. Wilhelm, Joseph M. Brault, Venkata Lakkireddy, James A. Cramer, Thomas A. Grana
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Patent number: 7685814Abstract: One embodiment of the present invention includes a unique technique to regulate operation of an internal combustion engine. Other embodiments include unique apparatus, devices, systems, and methods relating to internal combustion engine including exhaust aftertreatment components, apparatus, and systems.Type: GrantFiled: July 12, 2006Date of Patent: March 30, 2010Assignee: Cummins Filtration, Inc.Inventors: Yuetao Zhang, Daniel D. Wilhelm, Brian P. Liimatta
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Publication number: 20100037684Abstract: Methods of monitoring replacement of a diesel particulate filter (DPF) by a non-particulate matter filter. The disclosed methods takes into account a change in delta pressure based soot load estimates (DPSLE) over time to detect whether the DPF has been replaced. The estimate, which is measured by the delta pressure drop across the filter, can be used to determine whether a device that does not have the capability of trapping soot, such as a muffler, has been inserted.Type: ApplicationFiled: August 14, 2008Publication date: February 18, 2010Applicant: CUMMINS FILTRATION IP, INC.Inventors: Daniel R. Harshbarger, Daniel D. Wilhelm, Purna Chander Nalla
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Publication number: 20090308052Abstract: A method for improving the effectiveness of filters by increasing accuracy of an estimate of particulate matter loading remaining in the filter after cleaning. In one embodiment, the disclosed method includes removing soot from the DPF by cleaning, and measuring parameters for a set of predetermined criteria. The amount of soot present in the DPF is then estimated based on delta pressure. The resulting estimated soot load value accounts for the noise factors such as ash loading after extended operation. The value is then used to adjust for future measurements of soot loading in the DPF after subsequent regeneration treatments and/or used to diagnose the effectiveness of the cleaning. The method can also be applied to diagnostics of the DPF. When discrepancies between DPSLE and model-based soot load estimate are observed in healthy regenerations, failure modes such as plugged filter, extreme ash loading or substrate melting can be detected.Type: ApplicationFiled: June 13, 2008Publication date: December 17, 2009Applicant: CUMMINS FILTRATION IP, INC.Inventors: Yuetao Zhang, Daniel D. Wilhelm
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Publication number: 20090248359Abstract: A real time doser efficiency monitoring method is described that measures the average instant pressure difference within one duty cycle of the doser injector. The disclosed method results in improved doser efficiency monitoring. The disclosed method can be implemented in a number of areas. For example, in a diesel truck application, the doser efficiency can be monitored accurately, for example within 5% error, all the time, no matter whether the truck is in a transient or steady state.Type: ApplicationFiled: April 1, 2008Publication date: October 1, 2009Applicant: CUMMINS FILTRATION IP, INC.Inventors: Xiao LIN, Daniel D. WILHELM, Javier FRANCO
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Publication number: 20090248361Abstract: A real time, average pressure difference method for monitoring doser efficiency is described that determines the difference between the average pressure when the doser is not injecting and the average pressure when the doser is injecting at a predetermined commanded injection rate. The average pressure difference method results in improved doser efficiency monitoring. The method can be implemented in a number of areas. For example, in a diesel truck application, the doser efficiency can be monitored accurately in real time.Type: ApplicationFiled: September 8, 2008Publication date: October 1, 2009Applicant: CUMMINS FILTRATION IP, INC.Inventors: Javier Franco, Thomas A. Grana, Daniel D. Wilhelm, Xiao Lin
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Patent number: 7500358Abstract: An apparatus, system, and method are disclosed for enhancing protection of a soot filter. The method enhances soot filter protection by interpreting a baseline regeneration scheme, estimating whether a set of current soot filter conditions indicate that a regeneration is occurring, and setting an engine operating indicator if an internal combustion engine is operating such that a threshold amount of soot is being generated. The method may continue with incrementing a first counter based on the baseline regeneration scheme and the engine operating indicator, and activating a regeneration request indicator when the first counter reaches a first threshold. The method may further include incrementing a second counter when the regeneration request indicator is active, where the incrementing value for the second counter is based on whether a regeneration is occurring. The method may further include deactivating the regeneration request indicator when the second counter reaches a second threshold.Type: GrantFiled: August 11, 2006Date of Patent: March 10, 2009Assignee: Fleetguard, IncInventors: Nishant Singh, Daniel D. Wilhelm
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Publication number: 20090024299Abstract: The operation of a fuel injector for an internal combustion engine is controlled, wherein the fuel injector has an on time comprising a pull-in time during which injector current increases to a pull-in current followed by a hold time during which the injector current is limited to a hold current that is less than the pull-in current. A control circuit receives a pressure signal from a pressure sensor that corresponds to a pressure of fuel supplied to the fuel injector for injection into the engine, correlates the pressure signal with fuel pressure, and decreases the pull-in time with increasing fuel pressure.Type: ApplicationFiled: July 16, 2007Publication date: January 22, 2009Inventors: Daniel D. Wilhelm, David L. Buchanan
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Publication number: 20080250773Abstract: A system comprises an engine including an exhaust system with a particle filter operable to collect particulate matter in exhaust produced by the engine, a sensor arrangement, a controller, and one or more engine control devices. The sensor arrangement provides a first sensor signal representative of oxygen in the exhaust and a second sensor signal representative of a temperature of the particle filter. The controller regulates operation of the particle filter in response to the sensor arrangement. The controller is structured to generate one or more output signals corresponding to a minimum exhaust flow rate as a function of the first and second sensor signals. The control devices are responsive to the one or more output signals to provide the minimum exhaust flow rate to the filter.Type: ApplicationFiled: March 5, 2008Publication date: October 16, 2008Inventors: Yuetao Zhang, Daniel D. Wilhelm, Thomas A. Grana
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Publication number: 20080034738Abstract: An apparatus, system, and method are disclosed for enhancing protection of a soot filter. The method enhances soot filter protection by interpreting a baseline regeneration scheme, estimating whether a set of current soot filter conditions indicate that a regeneration is occurring, and setting an engine operating indicator if an internal combustion engine is operating such that a threshold amount of soot is being generated. The method may continue with incrementing a first counter based on the baseline regeneration scheme and the engine operating indicator, and activating a regeneration request indicator when the first counter reaches a first threshold. The method may further include incrementing a second counter when the regeneration request indicator is active, where the incrementing value for the second counter is based on whether a regeneration is occurring. The method may further include deactivating the regeneration request indicator when the second counter reaches a second threshold.Type: ApplicationFiled: August 11, 2006Publication date: February 14, 2008Inventors: Nishant Singh, Daniel D. Wilhelm
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Publication number: 20080016853Abstract: A system, method and computer operable code is disclosed for reducing HC and liquid accumulation in an exhaust gas treatment system. A timer is used to monitor the amount of time the system spends in either absorption mode or desorption mode. If the exhaust gas temperature at the inlet of a oxidation catalyst device is below an absorption threshold, the timer is instructed to count up. If the exhaust gas temperature is above a desorption threshold, the timer is instructed to count down. At a predetermined timer threshold value, the engine is instructed to enter a thermal management mode operable to reduce accumulation of HC and liquid in the exhaust gas management system.Type: ApplicationFiled: July 21, 2006Publication date: January 24, 2008Inventors: Yuetao Zhang, Daniel D. Wilhelm, Joseph M. Brault, Venkata Lakkireddy, James A. Cramer, Thomas A. Grana
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Publication number: 20080010975Abstract: One embodiment of the present invention includes a unique technique to regulate operation of an internal combustion engine. Other embodiments include unique apparatus, devices, systems, and methods relating to internal combustion engine including exhaust aftertreatment components, apparatus, and systems.Type: ApplicationFiled: July 12, 2006Publication date: January 17, 2008Inventors: Yuetao Zhang, Daniel D. Wilhelm, Brian P. Liimatta
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Patent number: 7006911Abstract: A system is disclosed for controlling the current used by an actuator to control actuator position. A control circuit is configured to control the actuator current to a value at or near the minimum current required to sustain the actuator in a desired position in order to maintain the actuator operating temperature below a specified maximum actuator temperature.Type: GrantFiled: November 4, 2003Date of Patent: February 28, 2006Assignee: Cummins, Inc.Inventors: Daniel D. Wilhelm, Gregory R. White, Charles Wu
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Patent number: 5844430Abstract: An apparatus and method for controlling a variable threshold signal conditioning circuit to condition a variable amplitude periodic input signal in response to the control signals received. A plurality of transistor circuits, each responsive to a control signal, are disposed in parallel with the positive feedback resistor of a trigger circuit. The transistor circuits are controlled to adjust the upper threshold levels of the trigger circuit in order to reduce the false triggering effects of noise in the input signal. The lower threshold level is held constant at the input signal mid-line voltage while the upper threshold level is varied over a plurality of preprogrammed values. A microprocessor determines the appropriate threshold level for the circuit by comparing the timing signal output of the signal conditioning circuit to preprogrammed values stored in the microprocessor memory.Type: GrantFiled: May 21, 1996Date of Patent: December 1, 1998Assignee: Cummins Engine Company, Inc.Inventors: Edwin M. Thurnau, Ernest A. Streicher, Daniel D. Wilhelm
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Patent number: 5771861Abstract: A system for controlling fuel flow in an internal combustion engine receives a command specifying a desired fuel flow rate from an electronic control module. The system generates a feedforward estimate of actuator current required to produce the desired flow rate. This estimate is combined with a fueling current offset value generated using a proportional-integral feedback controller. A differential pressure between the fuel rail and cylinder gas is converted, by surface interpolation based on a lookup table, to an estimate of actual fuel flow rate. The difference between this actual fuel flow rate and the desired flow rate is provided to the feedback controller as an error signal. The feedback controller preferably uses different gain values depending on an operating mode of the engine (speed control and torque control modes).Type: GrantFiled: July 1, 1996Date of Patent: June 30, 1998Assignee: Cummins Engine Company, Inc.Inventors: Keith L. Musser, Daniel D. Wilhelm, David A. Olson, James H. Ross, Jeffrey P. Seger, Michael J. Ruth, Prakash Bedapudi, David A. Bolis, Stephen M. Holl, Gregory Weber
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Patent number: 5229579Abstract: A control for a resistive heating element embedded within a motor vehicle seat is disclosed. In one embodiment, a transistor is biased into conduction to energize the heating element when the temperature of the element is below a threshold that is adjusted by the vehicle operator. A fault sensing system monitors operation of the control unit and de-energizes the heating element if a fault is sensed. Sensed faults include both short circuits and undesirable open circuits. Power application to the resistive heating unit can be either pulsed or continuous. In one embodiment, once a fault is detected, the heating system cannot be re-energized until the vehicle ignition switch is turned off and then returned to its on position.Type: GrantFiled: March 2, 1990Date of Patent: July 20, 1993Assignee: Nartron CorporationInventors: Ronald D. Ingraham, Daniel D. Wilhelm
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Patent number: RE35428Abstract: An electronic reostat circuit having a pulse width modulated output for controlling energization of resistive device .[.such as a vehicle dashboard illumination lamp.].. .[.A.]. .Iadd.According to one aspect of the invention a .Iaddend.comparator circuit compares a reference signal adjusted by a user with an alternating signal, preferably a saw tooth waveform, and generates a pulse width modulated output whose duty cycle varies directly with the size of the reference signal. .Iadd.According to another aspect of the invention, .[.The.]. .Iadd.the .Iaddend.reference signal is generated by a tapped resistor array wherein contacts on the array are coupled to ground by a rotary switch contact which can be adjusted by the user. By raising and lowering the reference signal, the duty cycle can be changed from a minimum to maximum and thereby produce a minimum and maximum lamp illumination signal.Type: GrantFiled: June 19, 1992Date of Patent: January 21, 1997Assignee: Nartron CorporationInventor: Daniel D. Wilhelm