A throttle assembly for an engine may include a remote throttle lever, a sensor, and a terminal. The remote throttle lever may be coupled physically to a user input device and operable to be moved under control of the user input device. The sensor is configured to detect a position of the remote throttle lever and generate an output signal indicative of the position of the remote throttle lever. The terminal configured to provide the output signal to a controller of the engine.

A joint in a system for conducting a fluid has a first duct and a second duct that is coupled together via fasteners. Typically, the fasteners are placed into tabs that are affixed to the ducts and shafts of the fasteners run in the same direction as the duct. When the ducts are plastic and the fasteners are metal, the plastic can creep more than the metal such that the joint fails to seal properly after a period of time. To avoid such a situation, a joint that has fasteners installed at an angle with respect to the ducts is disclosed. The tabs are also angled with respect to the ducts: tabs that form an obtuse angle with one of the ducts mate with tabs on the other duct that form a complementary acute angle. In one embodiment, shafts of pairs of fasteners are roughly perpendicular.

A joint in a system for conducting a fluid has a first duct and a second duct that is coupled together via fasteners. Typically, the fasteners are placed into tabs that are affixed to the ducts and shafts of the fasteners run in the same direction as the duct. When the ducts are plastic and the fasteners are metal, the plastic can creep more than the metal such that the joint fails to seal properly after a period of time. To avoid such a situation, a joint that has fasteners installed at an angle with respect to the ducts is disclosed. The tabs are also angled with respect to the ducts: tabs that form an obtuse angle with one of the ducts mate with tabs on the other duct that form a complementary acute angle. In one embodiment, shafts of pairs of fasteners are roughly perpendicular.

A system for providing deceleration in a hybrid vehicle having a hydraulic braking system and a regenerative braking system. The system includes a hydraulic braking sensor configured to determine a status of the hydraulic braking system. The system also includes a brake pedal unit configured to determine brake pedal data. The system also includes a battery configured to store energy generated by the regenerative braking system. The system also includes a processor configured to determine whether the hydraulic braking system is compromised. The processor is also configured to detect an emergency braking situation based on the brake pedal data. The processor is also configured to increase engine speed of the engine to induce engine braking, and increase the maximum charge limit of the battery to increase a regenerative braking capacity of the regenerative braking system when the hydraulic braking system is compromised and the emergency braking situation is detected.

In the intake air quantity control device, a ring-shaped convex portion having an outer diameter being smaller than an inner diameter of the wave washer for damping the drive motor is formed on the bottom surface of the cylinder-shaped hole of the throttle body, and tapered portions are provided at an outer-diameter corner of the ring-shaped convex portion and at an outer-diameter corner of the bottom surface of the cylinder-shaped hole of the throttle body.

Systems and methods are provided for providing redundant pulse-width modulation (PWM) throttle control. The system includes a manual throttle controller configured to generate a manual PWM throttle control signal, and an automated throttle control system. The automated throttle control system includes a plurality of automated throttle controllers, each of which being configured to independently control a throttle of a vehicle, and each including a processor configured to generate and output an automated PWM throttle control signal, a first double pole double throw (DPDT) relay that, when engaged, is configured to receive and output the manual PWM throttle control signal, and a second DPDT relay, configured to receive and output the automated PWM throttle control signal to an engine, when the second DPDT relay is engaged; and receive and output the manual PWM throttle control signal to the engine, when the DPDT relay is disengaged.