Multi-wavelength LED construction & manufacturing proces
A multi-wavelength LED construction and its manufacturing process having respectively coated on the base layer and the position above the peripheral of the light emitting chip a fluorescent material of a specific wavelength to be excited to provide higher light emitting efficiency and expected light color without mutual interference when the chip is conducted so to facilitate quality control of the multi-wavelength LED.
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(a) Field of the Invention
The present invention is related to an art of presenting LED light emitting efficiency and light color, and more particularly, to a multi-wavelength LED construction and its manufacturing process that produce highly light emitting efficiency and accurate gloss.
(b) Description of the Prior Art
As illustrated in
Generally, a blue chip is used in the multi-wavelength LED to excite yellow fluorescent powders 51 mixed in the fluorescent gel 50 to produce pseudo-white light that looks light white light. However, the prior art relies upon only fluorescent powders in a straight color as the complementary light excited by the light-emitting chip, the resultant pseudo-white gloss is poor and blamed for yellow halo phenomenon. To correct, two types of fluorescent powders in different colors are mixed in the fluorescent gel for the multi-wavelength LED. Usually, a blue chip is used to excite red fluorescent powders 52 and green fluorescent 53 mixed in the fluorescent gel 50 for the red light and the green light to incorporated with the blue light of the light-emitting chip 10 for obtaining RGB mixing results to produce the light color that is with higher color development properties and closer to the white light. However, the amount and proportion of the fluorescent powders in different colors prevent easy control for effective control of the quality of the finished product; and interference exists due to that different colors of fluorescent powders are excited at the same position at the same time by the light source from the light-emitting chip. That is, the energy for the fluorescent powder of shorter wavelength will be absorbed by that of longer wavelength to prevent estimate of their consumption ratio, and thus to fail the expected color deflection for presenting the accurate expected light color. Furthermore, the fluorescent powder of shorter wavelength emits light of slightly longer wavelength which in turn excites the fluorescent powder to emit light of even longer wavelength thus to compromise the light emitting efficiency to produce light at lower luminance.
SUMMARY OF THE INVENTIONThe primary purpose of the present invention is to provide a construction of a multi-wavelength LED and its manufacturing process to provide higher light emitting efficiency and expected light color without mutual interference when the chip is conducted so to facilitate quality control of the multi-wavelength LED. To achieve the purpose, the present invention has respectively coated on the base layer and the position above the peripheral of the light emitting chip a fluorescent material of a specific wavelength to be excited allowing easy control of the amount and ratio of the fluorescent powders at different positions.
Referring to
Wherein, the base layer and the peripheral of the light-emitting chip 10 are respectively coated with one or a plurality of fluorescent material of a given wavelength. When the light-emitting chip is conducted, the fluorescent materials are respectively excited to emit the light with expected color without mutual interference. The process not only achieves the higher light emitting efficiency and correct color of light emitted, but also allows easy control of the amount and proportion of the fluorescent materials at different positions to facilitate the quality control of the multi-wavelength LED and significantly increase its production capacity.
As illustrated in
A third preferred embodiment of the present invention as illustrated in
Alternatively, the first and the second fluorescent materials each of longer wavelength are respectively mixed with the gel to produce separate gel cakes. Both gel cakes are then respectively baked in the oven with the chip to produce separate semi-products. Both semi-products are then placed in the carrier of the light-emitting chip and baked in sequence. The golden plated wire connects the light-emitting chip and the electrodes. The third type of fluorescent material of the comparatively shorter wavelength is also mixed with the gel to become a fluorescent gel. The gel is poured into the position above the peripheral of the light-emitting chip and finally baked in the oven.
The prevent invention provides an improved construction of a multi-wavelength LED and its manufacturing process, and this application is duly filed accordingly. However, it is to be noted that that the preferred embodiments disclosed in the specification and the accompanying drawings are not limiting the present invention; and that any construction, installation, or characteristics that is same or similar to that of the present invention should fall within the scope of the purposes and claims of the present invention.
Claims
1-2. (canceled)
3. A manufacturing process of the multi-wavelength LED includes the following steps:
- a. The first type of fluorescent material of comparatively longer wavelength is mixed with a gel to become a chip mounting gel to be coated in a carrier of the light-emitting chip;
- b. The light-emitting chip is fixed in the chip mounting get and baked in positions;
- c. The light-emitting chip and multiple electrodes are joined;
- d. The second type of fluorescent material of comparatively shorter wavelength is mixed with the gel to become a fluorescent gel to be poured into the position above the peripheral of the light-emitting chip; and
- e. Finally, the fluorescent gel is baked in the oven.
4-6. (canceled)
7. A manufacturing process of the multi-wavelength LED includes the following steps:
- a. The first type of fluorescent material of comparatively longer wavelength is mixed with a gel to become a chip mounting gel to be coated in a carrier of the light-emitting chip;
- b. The light-emitting chip is fixed in the chip mounting gel and baked in position;
- c. The light-emitting chip and multiple electrodes are joined;
- d. The second and the third type of fluorescent materials each of comparatively shorter wavelength are mixed with the gel to become a fluorescent gel to be poured into the position above the peripheral of the light-emitting chip; and
- e. Finally, the fluorescent gel is baked in the oven.
8-10. (canceled)
11. A manufacturing process of the multi-wavelength LED includes the following steps:
- a. The first and the second types of fluorescent materials each of comparatively longer wavelength are respectively mixed with a gel to produce separate gel cakes;
- b. Both gel cakes are placed into the carrier of the light-emitting chip in sequence, followed with the placement of the light-emitting chip to be baked in position;
- c. The light-emitting chip and multiple electrodes are joined;
- d. The third type of fluorescent material of comparatively shorter wavelength is mixed with the gel to become a fluorescent gel to be poured into the position above the peripheral of the light-emitting chip; and
- e. Finally, the fluorescent gel is baked in position.
12. A manufacturing process of the multi-wavelength LED includes the following steps:
- a. The first and the second types of fluorescent materials each of comparatively longer wavelength are respectively mixed with a gel to produce separate gel cakes;
- b. Both gel cakes respectively made of the first and the second types of fluorescent materials are baked into position with the chip to become a semi-product;
- c. The semi-product is placed into the carrier of the light-emitting chip and baked in position;
- d. The light-emitting chip and multiple electrodes are joined;
- e. The third type of fluorescent material of comparatively shorter wavelength is mixed with the gel to become a fluorescent gel to be poured into the position above the peripheral of the light-emitting chip; and
- f. Finally, the fluorescent gel is baked in the oven.
Type: Application
Filed: Feb 20, 2008
Publication Date: Aug 28, 2008
Applicant:
Inventors: Ming-Shun Lee (Taipei), Chang-Wei Ho (Taipei)
Application Number: 12/071,327