One example includes a communication system. The system includes a data transmitter configured to generate a digital communication signal and a data receiver configured to receive the digital communication signal. The system also includes a pulse-width distortion (PWD) correction circuit arranged between the data transmitter and the data receiver and being configured to adjust at least one timing parameter associated with the communication signal.

There is disclosed a forward cooling headlight comprising a body, a lens coupled to the body and a heatsink coupled to the body. There is also a heatpipe and at least one light. The light is coupled to the heatsink, wherein the heatpipe is coupled to the heatsink at a first end, and to the body at a second end. The heatsink draws heat away from the light, via the heatpipe and towards the body. There can be at least one synthetic jet coupled to the heatpipe to aid in cooling the light. In addition, in at least one embodiment, there can be at least two lights with at least two different drivers with a first driver driving a first light and a second driver driving a second light wherein when each of the lights is lit it is capable of generating a different focal point.

A multi-touch smartphone display used as a track pad in a motor vehicle is provided. A system includes a handheld device having a multi-touch display, a vehicle controller that transmits and receives data from the handheld device when the handheld device is docked into the vehicle, and a display that is mounted within the vehicle. The docked handheld device functions as a track pad to receive user input. The display is configured to display vehicle functions and applications on the handheld device. The vehicle controller is configured to transmit one or more commands to one or more vehicle components based on the received user input to execute the command.

A head lamp device of a vehicle comprises a pair of lamp units arranged in a direction perpendicular to a forward and rearward direction of a vehicle body, each of the pair of lamp units including at least one light emitting element; and a lighting circuit unit which is supplied with electric power from a power supply and lights the at least one light emitting element, wherein at least a portion of the lighting circuit unit is disposed in a gap formed between the pair of lamp units in the direction in which the pair of lamp units are arranged.

The present invention provides a method of installing a hood scoop to a designated recessed area of a hood of a Jeep® Wrangler Rubicon vehicle comprising: providing the hood scoop having a protective member and a hood attachment member having a first cable access feature wherein: edge profile of the hood attachment member matches edge profile of the designated recessed area; the designated recessed area includes a hood aperture that provides access to the vehicle's electrical power and control systems; attaching the attachment member to the designated recessed area using conventional attachment means; and attaching a light fixture to the hood scoop wherein the light fixture's cables pass through the first cable access feature and the hood aperture for communication with the vehicle's electrical power and control systems. The present invention also provides the hood scoop described herein.

A vehicular, adaptive brake light to custom light sequencing system generally includes an OEM vehicular brake light circuit electrically connected to OEM brake lights of a vehicle, and an aftermarket flashing circuit electrically connected within or to the OEM vehicular brake light circuit to cause the OEM brake lights to flash. They system further includes an aftermarket directional indicator circuit electrically connected within or to the OEM vehicular brake light circuit and electrically connected to the aftermarket flashing circuit to effectuate a flashing of at least one of an OEM left brake light and an OEM right brake light. The system also includes an aftermarket hazard light circuit that is electrically connected within or to the OEM brake light circuit and to the aftermarket flashing circuit to effectuate a flashing hazard by the OEM brake lights.

A lamp control device comprises a first input terminal, a second input terminal, an output terminal that is configured to be connectable to a lamp via an external switch and outputs a drive current for the lamp, an internal switch provided on a first path connecting the first input terminal and the output terminal, a constant current section provided on a second path connecting the second input terminal and the output terminal, a voltage monitoring section that monitors a voltage applied to the output terminal, and a control section that controls the internal switch on the basis of a monitoring result from the voltage monitoring section.

An electronic control module of a light source includes at least one circuit card supporting electronic components and configured to be received by a first of its edges in a housing. The control module has in the vicinity of the first edge a connecting portion including at least one rib perpendicular or substantially perpendicular to the plane defined by the circuit card.

A lighting device includes a thermal sensor, power converter circuits and a control circuit. The thermal sensor is configured to measure an internal temperature of a case. The power converter circuits are housed in the case and configured to be connected with different types of light sources, respectively. The control circuit is housed in the case and has priorities that are provided with respect to the different types of light sources according to their respective types. The control circuit is configured to, when the internal temperature is greater than a threshold, control the respective outputs of the power converter circuits so as to preferentially decrease an output for a light source corresponding to a first priority.

A lighting module includes at least one light source arranged on a first printed circuit board, a support secured to the first printed circuit board, and a light source controlling device connected to the first printed circuit board by a flexible electrical link, the controlling device having integrated retaining means for detachably holding the controlling device on the support.