Abstract: A brake controller system includes a brake controller that controls the brakes of a towed vehicle based on acceleration. The brake controller sends signals to the brakes of the towed vehicle. The brake controller sends signals to determine whether the trailer brakes are properly connected. The signals may include a pulse train. The pulse train charges hydraulic braking systems for resistive testing. The brake controller determines whether the brakes are connected.

Abstract: A sensor unit includes a first sidewall, a second sidewall, a third sidewall connected to one end of the first sidewall and one end of the second sidewall, and a fourth sidewall opposed to the third sidewall of a container including a lid, a first connector, and a second connector. The first connector is attached to the first sidewall further on the side of the fourth sidewall than the side of the third sidewall. The second connector is attached to the second sidewall further on the side of the third sidewall than the side of the fourth sidewall.

Abstract: Towed vehicles can be extremely heavy. Accordingly, it is too much of a burden to the braking system of a towing vehicle to not have brakes on the towed vehicle. Controlling the brakes of the towed vehicle must be accurately applied otherwise undesirable conditions can be created. There is a need for a method for controlling braking of a towed vehicle. This method comprises receiving a first signal via a communication bus of a towing vehicle, the first signal relating to at least one operating condition of at least one the towing vehicle and a towed vehicle, sending a second signal to brakes of the towed vehicle, the second signal based on said first signal.

Abstract: An electronically controlled pneumatic (ECP) overlay control valve can selective switch between a conventional pneumatic mode and an ECP mode. In ECP mode, the overlay control valve shunts the brake cylinder pressure of the pneumatic control valve which allows a relay valve to build or exhaust pressure in the brake cylinder in response to an electronically controlled apply/release circuit. In conventional pneumatic mode, the overlay control valve disconnects the relay valve and allows a conventional pneumatic control valve to control the pressurization and exhausting of the brake cylinder.

Abstract: Braking system includes a brake, first valve that actuates the brake based on user input, second valve configured to selectively actuate the brake, and valve actuation system including a user input device moveable between first and second positions. A brake sensor provides a signal indicative of actuation of the first valve. The valve actuation system activates the second valve if the user input device is in the first position and the first valve engaged, retaining the second valve in active state if the first valve is disengaged, deactivating the second valve if the user input device is in the second position.

Abstract: A method for operating a vehicle drive-train having a continuously power-branched transmission with secondary coupling. In the open operating condition of reversing clutches of a reversing gear unit, torque applied in the area of a drive output can be supported by a range group in the area of a variator. In the event of a command to interrupt the power flow between a drive engine and the drive output, it is checked whether the vehicle is on an inclined surface and if the result of that inquiry is positive, the power flow between the drive engine and the transmission is interrupted at the latest when the rotational speed of the drive output is reduced to zero by opening the reversing clutches, while the active connection between the drive output and the variator is maintained by way of the range group.

Abstract: A method for controlling a valve for maintaining brake pressure in a specified region of a brake circuit in a motor vehicle, in which the valve is controlled using a first control method, the specified region of the brake circuit is monitored with respect to the occurrence of a loss of brake pressure, and in response to a detected loss of brake pressure, the valve is controlled using a second control method.

Abstract: An auxiliary braking system and method of controlling the braking a towed vehicle is provided that includes a remote control that is in selective communication with an auxiliary braking unit positioned in a towing vehicle. More specifically, it is often desirable for the operator of the towing vehicle to assess the performance of the auxiliary braking apparatus positioned in a towed vehicle. In addition, it is often advantageous for the operator to perform real time adjustments to the performance parameters of the auxiliary braking apparatus positioned in the towing vehicle without having to cease driving and physically access the auxiliary braking device.

Abstract: An auxiliary braking system and method of controlling the braking a towed vehicle is provided that includes a remote control that is in selective communication with an auxiliary braking unit positioned in a towing vehicle. More specifically, it is often desirable for the operator of the towing vehicle to assess the performance of the auxiliary braking apparatus positioned in a towed vehicle. In addition, it is often advantageous for the operator to perform real time adjustments to the performance parameters of the auxiliary braking apparatus positioned in the towing vehicle without having to cease driving and physically access the auxiliary braking device.

Abstract: A monitoring and switching device for use with a towed vehicle includes a relay circuit that has a pair of terminals that are adapted to be connected with another circuit. A detection circuit is in communication with the relay circuit. The detection circuit can detect closing of the relay circuit and send an electrical signal that the relay circuit has been closed.

Abstract: An accelerometer is mounted upon a movable base member that is disposed within an electric brake controller housing with a lever attached to the moveable base, the lever being external to the brake controller housing to allow orientation of the accelerometer within the housing.

Abstract: Disclosed herein is a brake actuator for a towed vehicle having a brake actuated by a pedal. The actuator comprises a weight, slidably mounted to a base, a base and a slidable mount. Alternatively, the actuator comprises a weight, slidably mounted to a base, a base, a slidable mount and an auxiliary vacuum system for use with power-assisted brakes.

Abstract: A vehicle brake monitoring system including processing units receiving signals from each of the several brake stroke sensors mounted on a vehicle. The sensors adapted to generate signal corresponding to stroke movement of the brakes. The system adapted to process the sensor signal, signal from the vehicle's stoplight and a time delay between changes in the stoplight signal and corresponding changes in the sensor signal to determine the current condition of a brake. This determination, whether made on a tractor or trailer, can then appear on the display of the data acquisition unit itself, or through data communications to a display in the vehicle's cab; or on a warning light in the cab if the unit detects a malfunctioning brake.

Abstract: A brake controller, for controlling the brakes of a towed vehicle, having a control module and a power module is provided. The control module is mounted in the cab of a vehicle used for towing, in such a manner that it can be easily seen and accessed by the driver. The control module is provided with an accelerometer, which can read acceleration forces in at least two axes, and a microprocessor which polls the accelerometer and sends braking information to the power module. The control module is also provided with a gain control, to adjust the amount of brake force information, a manual braking lever and a display panel. The power module, which may be mounted in a convenient location, preferably on the towed vehicle, receives the braking information from the control module and secures power from the towed vehicle to engage its brakes.

Abstract: The present invention provides a brake heat reducing system for reducing the temperature of brake components in vehicles, the brake heat reducing system cooperating with the braking system of the vehicle and having a control device having an accelerometer that is energized in response to vehicular braking and a timer relay. A modulating device has a solenoid valve connected to the timer relay and is activated by the control device in response to vehicular braking for modulating braking pressure during occurrence of vehicular braking.

Abstract: A brake fluid pressure relief assembly (50) for a brake system (10) including a pedal assembly (12) employs first and second valves (52, 54) to provide controlled collapse of a brake pedal pad (14) when both a predetermined deceleration limit is exceeded and a predetermined pressure level is exceeded in a hydraulic brake fluid. The first valve (52) is actuated by an inertial mass (84) acting against a first spring (86). With the first valve in the open position, hydraulic fluid passes into a reservoir (68) whose volume is a dependent on the position of the second valve (54). The second valve (54) opens when the fluid pressure in the reservoir exceeds a predetermined pressure limit and compresses a piston (100) against a second spring (114). Accordingly, the forces that can be communicated through the pedal system 10 are reduced during a collision.

Abstract: A towed vehicle brake actuation system comprising an adjustable inertia activated switch and a relay in series and a radio transmitter, all in the towing vehicle where an electrical signal must pass through both the switch and the relay before the towed vehicle brake actuation system is actuated. When the switch and a brake light switch in the towing vehicle are both activated, an electric current passes to the radio transmitter which sends a signal to a radio receiver in a towed vehicle which activates a first towed vehicle relay that permits current to pass on to a towed vehicle adjustable inertia activated switch which upon actuation by towed vehicle deceleration permits current to pass through a second towed vehicle relay to a vacuum valve that is a part of the towed vehicle brake actuation system.

Abstract: A decration sensor includes a pendulum which is suspended within an U-shaped bucket. The pendulum carries a permanent magnet which is adjacent to a Hall Effect device mounted upon the bucket. Both the pendulum and bucket are carried in an open ended housing which permits movement of the bucket relative to the pendulum to adjust for surface angles when the sensor is mounted upon a vehicle. Upon the deceleration of the vehicle, the pendulum move relative to the Hall Effect Device. As a result of the changing magnetic field, a voltage is generated by the Hall Effect Device which is directly proportional to the vehicle deceleration.

Abstract: A yaw control system for an automotive drivetrain includes an equal torque differential, an engine-driven hydraulic pump, and hydraulically actuated control brakes operable to apply a resistive torque to either a left or right axle of the driven wheels. An acceleration-responsive control valve actuates one of the control brakes according to the direction of lateral acceleration of the vehicle. The control valve includes an inertial or seismic mass that moves a valve member to connect or disconnect the control brakes from the hydraulic pump. The control brakes are attached to the vehicle chassis so the resistive torque is reacted through the chassis, thereby inducing a yaw moment that coincides with and assists the turning of the vehicle.