A tube assembly for monitoring a fluid dispensed into a fluid fill port is disclosed. The tube assembly may include a tube body disposed between a first and second open end. A locking portion including a circumferential groove may be defined adjacent to the first open end and a fill portion may be defined at the second open end of the tube body. An aperture may extend through an outer surface of the tube body and a sensor may be inserted into the aperture such that at least a portion of the sensor is positioned within the interior portion of the tube body. The sensor may be configured to monitor at least one fluid characteristic of the fluid that is dispensed into the tube assembly and flows into the fluid fill port.

An apparatus and a method for diagnosing an internal combustion engine for a vehicle, the apparatus encompassing: a recognition device that is embodied to recognize a shutoff operation of the internal combustion engine while the vehicle is being operated in particular in a normal operating mode; a detection device that is embodied to detect, during the shutoff operation, a part or several parts of a curve for a rotation speed or an inter-tooth time of a crankshaft of the internal combustion engine; a comparison device that is embodied to compare at least one feature of the part or the several parts of the curve, in a comparison, with a comparison feature; and a diagnostic device that is embodied to perform, as a function of a result of the comparison, a diagnosis with regard to a compression loss in at least one cylinder.

A power tool is provided. The power tool includes an internal combustion engine including a flywheel, a cover, and an Internet of Things (IoT) connectivity device. The cover is coupled to the internal combustion engine, and includes a recessed portion. The IoT connectivity device is coupled to the cover within the recessed portion, and receives power wirelessly from the flywheel only when the internal combustion engine is operating.

Systems, apparatuses, and methods disclosed provide for estimating the remaining life for an engine. The method includes determining a correlation between a quantity of burned fuel and a level of wear of a piston ring for an engine. The level of wear of the piston ring is indicative of a remaining life of the engine. The method also includes determining a current quantity of burned fuel by the engine, and determining the remaining life of the engine based on the correlation and the current quantity of burned fuel by the engine.

An apparatus for cleaning a motorization system includes an injector that injects cleaning fluid into an inlet of an internal-combustion engine, a diagnostic device that determines the system's soiling level as a function of intrinsic parameters thereof, and a controller that supplies the injection device with cleaning parameters that depend on the soiling level. The motorization includes the engine and a gas-circulation circuit having pipes and moving parts arranged to feed the inlet a gas mixture for combustion.

A method and system for exercising a standby generator is disclosed. The standby generator can be exercised in at least two different exercise cycles, including an express exercise cycle and an extended exercise cycle. The system and method operates the generator for an express exercise cycle having a first duration when the ambient temperature at or near the standby generator exceeds a minimum threshold temperature. If the ambient temperature does not exceed the minimum threshold temperature, the express exercise cycle does not begin. In addition to the express exercise cycle, the engine of the standby generator is started and run for an extended exercise cycle having a duration that exceeds the duration of the express exercise cycle. The extended exercise cycles are separated by a first interval while the express exercise cycles are separated by a second interval, where the first interval is longer than the second interval.

Systems and methods for diagnosing the presence or absence of turbocharger wastegate degradation are presented. In one example, an intake manifold pressure sensor provides a basis for determining whether or not turbocharger wastegate degradation present. The turbocharged engine may be rotated in a reverse direction to assess wastegate degradation.

Provided herein are systems and methods for an intelligent diagnostic probe configured to provide troubleshooting guidance during diagnosing faults within vehicle electrical systems. The intelligent diagnostic probe is configured, in some embodiments, to receive raw measurement data, such as voltage, current, and resistance, from tools and take the data into an intelligence system so as to interpret the data and provide actionable output for practitioners operating the intelligent diagnostic probe. The intelligent diagnostic probe is configured, in some embodiments, to divide vehicle electrical diagnosis procedures of into segments, include appropriate tolerance ranges for readings, and provide feedback and suggestions regarding the readings. The intelligent diagnostic probe is configured, in some embodiments, to operate as an artificial intelligence that uses a large number of previously coded measurements to learn to accurately diagnose electrical faults based on currently measured raw data.

A diagnosis device is intended for an internal combustion engine including a supercharger, a blow-by gas passage that communicates between a portion of an intake passage and a crankcase, a PCV pressure sensor that detects a PCV pressure in the blow-by gas passage, and a crankshaft. The device executes specifying a specific period for which the amount of fluctuations in the intake air amount per unit time is a prescribed value or more on condition that the intake air amount is a determination air amount or more, calculating the amount of fluctuations in the PCV pressure during the specific period, and determining, based on the amount of fluctuations in the PCV pressure, the presence of an abnormality in the blow-by gas passage. The device sets the determination air amount to a smaller value when the rotational speed of the crankshaft is high than when the rotational speed is low.

The invention relates to a reciprocating piston machine, in particular with a variable compression ratio, of at least one cylinder with a piston and a connecting rod which is connected to the piston and to a crankshaft of the reciprocating piston machine. The reciprocating piston machine also has a first sensor which is arranged in a cylinder wall of the at least one cylinder and is configured to detect relative movement between a piston skirt of the piston and the cylinder wall. The invention further relates to a method (100) for diagnosing and/or controlling such a reciprocating piston machine (1), in particular with a variable compression ratio, and a system which is suitable therefor.