Abstract: A towed vehicle braking system is described that in some embodiments includes a brake pedal connector configured to connect to a brake pedal of a towed vehicle brake in a passenger compartment of a towed vehicle, a power supply circuit in an engine compartment of the towed vehicle coupled to a towed vehicle battery to receive power, and a brake drive system in the engine compartment connected through a wall to the passenger compartment to the brake pedal connector to actuate the brake of the towed vehicle through the brake pedal connector by applying a positive pressure to the brake pedal connector to move the brake pedal. An inertial sensor in the engine compartment detects deceleration of the towed vehicle, and a processor in the engine compartment coupled to the inertial sensor and to the brake drive system causes the brake drive system to actuate the brake in response to the detection of deceleration.

Abstract: A towed vehicle braking system is described that in some embodiments includes a brake pedal connector configured to connect to a brake pedal of a brake of a towed vehicle. A cylinder has a piston connected to the brake pedal connector to actuate the brake of the towed vehicle through the brake pedal connector by applying a positive pressure to the brake pedal connector to move the brake pedal. A vacuum supply line is coupled to a power booster of the towed vehicle brake and configured to provide vacuum to the power booster. A pump is coupled to the vacuum supply line and to the cylinder to alternately provide vacuum to the vacuum supply line and to drive the piston to actuate the brake. An inertial sensor detects deceleration of the towed vehicle, and a processor is coupled to the inertial sensor and to the pump to cause the pump to not provide vacuum and to drive the piston in response to the detection of deceleration.

Abstract: A towed vehicle braking system is described that in some embodiments includes a brake pedal connector configured to connect to a brake pedal of a brake of a towed vehicle. A cylinder has a piston connected to the brake pedal connector to actuate the brake of the towed vehicle through the brake pedal connector by applying a positive pressure to the brake pedal connector to move the brake pedal. A vacuum supply line is coupled to a power booster of the towed vehicle brake and configured to provide vacuum to the power booster. A pump is coupled to the vacuum supply line and to the cylinder to alternately provide vacuum to the vacuum supply line and to drive the piston to actuate the brake. An inertial sensor detects deceleration of the towed vehicle, and a processor is coupled to the inertial sensor and to the pump to cause the pump to not provide vacuum and to drive the piston in response to the detection of deceleration.

Abstract: A towed vehicle braking system is described that in some embodiments includes a brake pedal connector configured to connect to a brake pedal of a towed vehicle brake in a passenger compartment of a towed vehicle, a power supply circuit in an engine compartment of the towed vehicle coupled to a towed vehicle battery to receive power, and a brake drive system in the engine compartment connected through a wall to the passenger compartment to the brake pedal connector to actuate the brake of the towed vehicle through the brake pedal connector by applying a positive pressure to the brake pedal connector to move the brake pedal. An inertial sensor in the engine compartment detects deceleration of the towed vehicle, and a processor in the engine compartment coupled to the inertial sensor and to the brake drive system causes the brake drive system to actuate the brake in response to the detection of deceleration.

Abstract: A towed vehicle braking system is described that in some embodiments includes a brake pedal connector configured to connect to a brake pedal of a brake of a towed vehicle. A brake drive system is connected to the brake pedal connector to actuate the brake of the towed vehicle through the brake pedal connector by applying a positive pressure to the brake pedal connector to move the brake pedal. A voltage detector is coupled to a battery of the towed vehicle to detect the voltage at the battery and an ON/OFF circuit is coupled to the voltage detector to turn off the brake drive system in response to the detected voltage being above a predetermined voltage threshold.

Abstract: Brake lock detection is described for a brake activation system. In one example, a main housing is configured to engage an interior surface of a towed vehicle near a brake pedal of the towed vehicle. An actuation arm extends away from the main housing configured to connect to the brake pedal to actuate a brake of the towed vehicle through the brake pedal. An arm drive system of the main housing applies a positive pressure to the actuation arm when activated to drive the brake pedal to actuate the brake. A negative pressure sensor generates a negative pressure signal when the brake pedal applies a negative pressure opposite the positive pressure to the actuation arm and the actuation arm is not activated.

Abstract: Brake lock detection is described for a brake activation system. In one example, a main housing is configured to engage an interior surface of a towed vehicle near a brake pedal of the towed vehicle. An actuation arm extends away from the main housing configured to connect to the brake pedal to actuate a brake of the towed vehicle through the brake pedal. An arm drive system of the main housing applies a positive pressure to the actuation arm when activated to drive the brake pedal to actuate the brake. A negative pressure sensor generates a negative pressure signal when the brake pedal applies a negative pressure opposite the positive pressure to the actuation arm and the actuation arm is not activated.

Abstract: A synchronization mechanism and method for synchronizing remote audio devices that are coupled together with a bus is provided. The synchronization mechanism compares a signal on the bus with a clock signal on the audio device and adjusts the clock in response to the comparison. This allows the synchronization mechanism to accurately synchronize remote audio devices without requiring high precision clocks or other complicated solutions. The synchronization mechanism and method are particularly applicable to synchronizing remote audio devices in a distributed audio system that digitally sample and broadcast for communication purposes. In this application, the synchronization mechanism improves audio quality by synchronizing the sampling and outputting of each audio device on the bus. This improves audio quality by reducing the distortion that occurs as a result of varying sample times.