A lighting device (1) for a motor vehicle headlamp, including an optoelectronic component (2), a cooling element (3), a circuit board (4), a stabilisation element (5) and a fastening element (6), wherein the stabilisation element (5) comprises an opening (5a) for enclosing the optoelectronic component (2), wherein at least two stabilisation arms (7) extend away from an edge of the opening (5a), which stabilisation arms (7) are equipped to act on the optoelectronic component (2), wherein the cooling element (3) contacts the optoelectronic component (2) on a side facing away from an active side of the optoelectronic component in such a manner that the same exerts a pressure on the optoelectronic component (2) acting in the direction of the active side of the optoelectronic component (2), wherein the at least two stabilisation arms (7) are designed resiliently and act on the active side of the optoelectronic component (2) in such a manner that the at least two stabilisation arms (7) counteract this pressure of the cooling element (3).

A light conductor (1) for a vehicle light, comprising a light entrance part (11) and a light exit part (12), the light entrance part (11) being provided with a first single orientation alignment plane (13), the light exit part (12) being provided with a second single orientation alignment plane (14), and the alignment orientation of the first single orientation alignment plane (13) being perpendicular to the alignment orientation of the second single orientation alignment plane (14). The light rays emitted by a light source arranged at the light entrance part (11) can thus be formed into a light spot with bright and dark boundaries and having the required shape. Also disclosed is a full beam illumination module, comprising a plurality of light-emitting chips (2), a circuit board (3), a heat sink (4), and the light conductor (1) for a vehicle light, and capable of forming an illumination light shape composed of a plurality of light spots with bright and dark boundaries.

A light conductor (1) for a vehicle light, comprising a light entrance part (11) and a light exit part (12), the light entrance part (11) being provided with a first single orientation alignment plane (13), the light exit part (12) being provided with a second single orientation alignment plane (14), and the alignment orientation of the first single orientation alignment plane (13) being perpendicular to the alignment orientation of the second single orientation alignment plane (14). The light rays emitted by a light source arranged at the light entrance part (11) can thus be formed into a light spot with bright and dark boundaries and having the required shape. Also disclosed is a full beam illumination module, comprising a plurality of light-emitting chips (2), a circuit board (3), a heat sink (4), and the light conductor (1) for a vehicle light, and capable of forming an illumination light shape composed of a plurality of light spots with bright and dark boundaries.

An embodiment method for controlling heat dissipation of an LED lamp includes applying power to a first light source element to light the first light source element, generating a current using heat dissipation of the first light source element, supplying the current to a fan to drive the fan, and removing a residual heat of the first light source element using cold air generated by the fan.

An embodiment method for controlling heat dissipation of an LED lamp includes applying power to a first light source element to light the first light source element, generating a current using heat dissipation of the first light source element, supplying the current to a fan to drive the fan, and removing a residual heat of the first light source element using cold air generated by the fan.

A lamp for a vehicle, the lamp including a plurality of optical modules, in which the plurality of optical modules each includes a light source configured to emit light, an inner lens disposed forward of the light source, a lens holder disposed at one side of the inner lens and provided to be in close contact with the inner lens, and a bezel disposed at the other side of the inner lens and provided to be in close contact with the inner lens, in which a through-hole is provided in at least one lateral surface of the lens holder so that the light emitted from the light source passes through the through-hole.

A searchlight system for mounting to a vehicle, for example on the A-pillar, without requiring modification to structural frame components. The system comprises a mounting assembly which is installed on the vehicle and a searchlight assembly which is mounted to the mounting assembly. Searchlight assemblies with different optical devices can be modularly exchanged with respect to the same mounting assembly installed on the vehicle. Also disclosed is a method for installing such systems. Other aspects are directed to heat dissipation and ingress protection for the searchlight assembly.

Disclosed are a primary optical structure, a high-beam lighting device, and an anti-glare high-beam light. The primary optical structure comprises a reflection unit and a shading structure located in front for blocking part of the reflected light from the reflection unit. The primary optical structure is configured for use in a left vehicle lamp or a right vehicle lamp, where the shading structure is arranged at a left side portion or a right side portion of the lamp, respectively. The light blocked by the shading structure and the light that is not blocked are bounded by a right side edge or a left side edge respectively, and an upper side edge of the shading structure. In a vehicle lamp, the primary optical structure can form a high-beam profile having a dark area to prevent glare, such that the dark area formed has an adjustable width and position, improving driving safety.

Disclosed are a primary optical structure, a high-beam lighting device, and an anti-glare high-beam light. The primary optical structure comprises a reflection unit and a shading structure located in front for blocking part of the reflected light from the reflection unit. The primary optical structure is configured for use in a left vehicle lamp or a right vehicle lamp, where the shading structure is arranged at a left side portion or a right side portion of the lamp, respectively. The light blocked by the shading structure and the light that is not blocked are bounded by a right side edge or a left side edge respectively, and an upper side edge of the shading structure. In a vehicle lamp, the primary optical structure can form a high-beam profile having a dark area to prevent glare, such that the dark area formed has an adjustable width and position, improving driving safety.

An LED array assembly may include a hybridized device and a flexible PCB. The hybridized device may include a micro-LED array mounted on a driver IC. The driver IC may include driver IC contact pads on a top surface of the driver IC. The flexible PCB may have a bottom surface, first contact pads on the bottom surface, second contact pads on the bottom surface, and contact bridges. Each of the contact bridges extends from one of the first contact pads to one of the second contact pads. Each of the driver IC contact pads is bonded to a corresponding one of the first contact pads of the flexible PCB.