摘要:
Lighting apparatus having a first lens over the LED emitter and a second lens over the first lens, and including: a first optical surface which is a first-lens outer surface configured to refract light from the emitter; a second optical surface which is a second-lens inner surface spaced from the first optical surface; and a third optical surface which is a second-lens outer surface configured to refract light from the second optical surface toward a preferential side. One embodiment includes asymmetric primary and secondary lenses.
摘要:
Lighting apparatus having a first lens over the LED emitter and a second lens over the first lens, and including: a first optical surface which is a first-lens outer surface configured to refract light from the emitter; a second optical surface which is a second-lens inner surface spaced from the first optical surface; and a third optical surface which is a second-lens outer surface configured to refract light from the second optical surface toward a preferential side. One embodiment includes asymmetric primary and secondary lenses.
摘要:
An LED light source for use in LED lighting fixtures, the LED light source comprising a submount including an LED-populated area which has an aspect ratio greater than 1, an array of LEDs on the LED-populated area, and a lens on the submount over the LED-populated area. Various embodiments facilitating preferential-side lighting, such as for roadway uses, are also disclosed.
摘要:
An LED light source for use in LED lighting fixtures, the LED light source comprising a submount including an LED-populated area which has an aspect ratio greater than 1, an array of LEDs on the LED-populated area, and a lens on the submount over the LED-populated area. Various embodiments facilitating preferential-side lighting, such as for roadway uses, are also disclosed.
摘要:
A light-emitting device comprising (a) a submount having front and back sides and including a ceramic layer; (b) an array of light-emitting diodes (LEDs) on the front side; and (c) a lens overmolded on the submount and covering the LED array. In some embodiments, the submount comprises at least two electrically-conductive contact pads on the front side, and each LED in the array is secured with respect to one of the contact pads.
摘要:
A method of making a semiconductor light emitting device having one or more light emitting surfaces includes positioning a stencil on a substrate such that a chip disposed on the substrate is positioned within an opening in the stencil. Phosphor-containing material is deposited in the opening to form a coating on one or more light emitting surfaces of the chip. The opening may or may not substantially conform to a shape of the chip. The phosphor-containing material is cured with the stencil still in place. After curing, the stencil is removed from the substrate and the coated chip is separated from the substrate. The chip may then be subjected to further processing.
摘要:
A light emitting diode is disclosed, together with associated wafer structures, and fabrication and mapping techniques. The diode includes an active portion, a raised border on the top surface of the active portion and around the perimeter of the top surface of the active portion, a resin in the space defined by the border and the top surface of the active portion, and phosphor particles in the resin that convert the frequencies emitted by the active portion.
摘要:
A method of forming a lens over an optoelectronic element includes providing the optoelectronic element on a support substrate, dispensing a quantity of encapsulant onto the support substrate over the optoelectronic element, inverting the support substrate so that the support substrate is above the optoelectronic element and the encapsulant is suspended from the support substrate, and curing the encapsulant while maintaining the support substrate in the inverted position.
摘要:
A method of forming can be provided by applying an optical conversion material to a mold to form a unitary layer of optical conversion material and removing the unitary layer of optical conversion material from the mold.
摘要:
Methods are disclosed including applying a conformal coating to multiple light emitters. The conformal coating forms in gap areas between adjacent ones of the light emitters. The plurality of light emitters are separated into individual light emitters. The individual light emitters include the conformal coating that extends to a space corresponding to respective gap areas. Light emitting structures are disclosed including a semiconductor light emitting diode (LED) having an active region and a conformal coating including a first portion and a second portion, the first portion corresponding to at least one surface of the LED and the second portion extending from the first portion.