초록 ▼

A lighting device (1) includes one or more diode light sources (32), which are configured to emit light into the peripheral edges of a light guide (20). The light guide (20) includes a set of diffusing elements (22) for scattering the emitted light in a plurality of directions out of the front surfa

A lighting device (1) includes one or more diode light sources (32), which are configured to emit light into the peripheral edges of a light guide (20). The light guide (20) includes a set of diffusing elements (22) for scattering the emitted light in a plurality of directions out of the front surface of the light guide (20). The diffusing elements (22) are distributed on the light guide (20) so that the scattered light achieves a particular characteristic, e.g., improved uniformity.

대표청구항 ▼

What is claimed: 1. An aircraft formation light utilizing a diode light source, comprising: a reflective base; a light guide configured in front of the reflective base, the light guide including a plurality of diffusing elements; and one or more diode light sources each configured to emit light in

What is claimed: 1. An aircraft formation light utilizing a diode light source, comprising: a reflective base; a light guide configured in front of the reflective base, the light guide including a plurality of diffusing elements; and one or more diode light sources each configured to emit light in a direction incident to a peripheral edge of the light guide, wherein the one or more diode light sources are the primary source of light emanating from the lighting device, the diffusing elements are configured to scatter the emitted light in a plurality of directions out of a front surface of the light guide to increase a uniformity of light along the light guide, and the aircraft formation light is mounted to the exterior of an aircraft during operation to emit light indicative of the aircraft's position and attitude, the aircraft formation light being mounted such that the formation light protrudes no more than ? inch from the exterior surface of the aircraft. 2. The aircraft formation light of claim 1, wherein the diffusing elements are distributed on a rear surface of the light guide. 3. The aircraft formation light of claim 2, wherein the configuration of the diffusing elements scatters the emitted light in a manner increasing uniformity of a perceived brightness of the scattered light as viewed from the plurality of directions. 4. The aircraft formation light of claim 2, wherein the configuration of the diffusing elements scatters the emitted light in a manner increasing uniformity of a perceived brightness of the scattered light along the length of the front surface. 5. The aircraft formation light of claim 2, wherein at least one of size and relative spacing of the diffusing elements does not remain constant along a particular dimension of the light guide. 6. The aircraft formation light of claim 2, wherein the diffusing elements comprise etchings on the rear surface of the light guide. 7. The aircraft formation light of claim 6, wherein the light guide is made of a transparent plastic material. 8. The aircraft formation light of claim 6, wherein the diffusing elements are laser etched on the rear surface of the light guide. 9. The aircraft formation light of claim 2, wherein the diffusing elements are applied on the rear surface of the light guide by at least one of painting and printing. 10. The aircraft formation light of claim 1, wherein the diode light sources include at least two diode light sources each configured to emit light at substantially different wavelengths. 11. The aircraft formation light of claim 1, wherein the diode light sources include at least two diode light sources each configured to emit light at substantially the same wavelength. 12. The aircraft formation light of claim 1, further comprising: a diffuse transmissive layer configured in front of the light guide to redirect the scattered light passing out of the front surface of the light guide. 13. The aircraft formation light of claim 12, wherein the diffuse transmissive layer is configured, based on the configuration of the diffusing elements, to redirect the scattered light to improve uniformity of a perceived brightness. 14. The aircraft formation light of claim 12, further comprising: an outer lens, the diffuse transmissive layer being implemented as part of the outer lens. 15. The device of claim 1, wherein the reflective base includes a reflective layer adjacent to the diffusing elements of the light guide, the reflective layer being configured to reflect light scattered by the diffusing elements out of the front surface of the light guide. 16. An aircraft formation light utilizing a diode light source, comprising: a reflective base; a light guide configured in front of the reflective base, the light guide including a plurality of diffusing elements; and one or more diode light sources each configured to emit light in a direction incident to a peripheral edge of the light guide, wherein the diffusing elements are configured to scatter the emitted light in a plurality of directions out of a front surface of the light guide, wherein the diode light sources include one or more infrared (IR) diodes configured to emit infrared light, and wherein the aircraft formation light is mounted to the exterior of an aircraft during operation to emit infrared light indicative of the aircraft's position and attitude, the aircraft formation light being mounted such that the formation light protrudes no more than ? inch from the exterior surface of the aircraft. 17. The aircraft formation light of claim 16, wherein the diode light sources further include one or more LEDs configured to emit visible light, and the LEDs are operable to emit light according to a first mode of operation and the IR diodes are operable to emit infrared light according to a second mode of operation. 18. A method comprising: mounting a device including one or more diode light sources and a light guide on the exterior of an aircraft at a mounting location for a formation light, the mounted device protruding no more than ? inch from the exterior surface of the aircraft; emitting light from the one or more diode light sources in a direction incident to a peripheral edge of the light guide; scattering the emitted light with diffusing elements in the light guide, the diffusing elements being configured to scatter the emitted light out of the light guide in a plurality of directions to increase a uniformity of light along the light guide; and reflecting light that is scattered out of the light guide through a rear surface, so that the reflected light exits a front surface of the light guide; and outputting a formation light from the device indicative of the position and attitude of the aircraft, the formation light being formed by the scattering and reflecting steps, wherein the one or more diode light sources are the primary source of light for the formation light outputted from the device. 19. The method of claim 18, wherein the scattering step uses diffusing elements etched on a rear surface of the light guide to scatter the emitted light, the light guide being made of a transparent plastic material. 20. The method of claim 18, wherein the scattering step uses diffusing elements that are painted on a rear surface of the light guide, the diffusing elements being distributed over the rear surface of the light guide. 21. The method of claim 18, further comprising: redirecting the scattered light with a diffuse transmissive layer in front of the front surface of the light guide, wherein the redirecting step improves a uniformity of a perceived brightness. 22. The method of claim 18, further comprising: designing a configuration for the diffusing elements in order to achieve a perceived characteristic of the formation light; and distributing the diffusing elements on the rear surface of the light guide according to a configuration designed to achieve a perceived characteristic. 23. The method of claim 22, wherein the configuration is designed to achieve uniformity of a perceived brightness of the scattered light among the plurality of directions. 24. The method of claim 22, wherein the configuration is designed to achieve uniformity of a perceived brightness of the scattered light along at least one of a length and width of the front surface. 25. The method of claim 18, the determining a configuration of the diffusing elements including performing a computer simulation. 26. The method of claim 18, the diode light sources including one or more light emitting diodes (LEDs) and one or more infrared (IR) diodes, the method further comprising: emitting light from the LEDs in response to a first mode being chosen; and emitting infrared light from the IR diodes in response to a second mode being chosen.