Gaussian surface lens quantum photon converter and methods of controlling LED colour and intensity

摘要

This invention is a photon-interactive Gaussian surface lens method means that converts incident photons from a single or a plurality of wide band gap semiconductor class light emitting diode dies, into a secondary emission of photons emanating from a composite photon transparent colloidal stationary suspension of quantum dots, high efficiency phosphors, a combination of quantum dots and high efficiency phosphors and nano-particles of metal, silicon or similar semiconductors from the IIIB and IVB Group of the Periodic Table and any nano-material and/or micro/nano spheres that responds to Rayleigh Scattering and/or Mie Scattering; and a plurality of quantum dots in communication with said nano-particles in said suspension. The apparatus and methods according to the present invention provides in improved narrow pass-band of red, green, and blue photon efficiency over phosphor based conversion. Utilizing the invention's methodology, the white resultant color temperature is stabilized against internal semiconductor thermal fluctuations or ambient thermal variations.

主权项

1. A photon converter disposed over a light emitting diode having a light emitting region providing photons therefrom at a selected wavelength: comprising:
a stationary colloidal suspension volume lens comprising one of photon transparent epoxy and polymer plastic, disposed to receive said light emitting diode photons, said stationary colloidal suspension volume being removably disposed on said light emitting diode, said stationary colloidal suspension volume including
a plurality of nano-particles of one of metal, silicon and similar semiconductor material from the IIIB and IVB Group of the Periodic Table suspended within said colloidal volume, wherein said nano-particles are selected to resonate with said light emitting diode wavelength photons providing a re-emitted photon at said light emitting diode wavelength;a plurality of quantum dots suspended within said colloidal volume lens and of selected size providing a selected one of a broadband emission with a range of substantially 420- 710 nm in response to incident light emitting diode photons and a monochromatic light emission; and a plurality of one of a micro and a nano transparent spheres of one of a glass polymer plastic disposed to scatter photons from said quantum dots within said volume, wherein said stationary colloidal suspension volume lens comprises a Gaussian curvilinear surface volume; and wherein said light emitting diode is disposed to release incident photons throughout said photon transparent epoxy and polymer plastic embodiment for quantum interaction with said quantum dots to establish one of a designed white colour temperature expressed in degrees Kelvin and a designed substantially single colour temperature expressed in degrees Kelvin.