OPTICAL SYSTEM

Organization Name

LG INNOTEK CO., LTD.

Inventor(s)

Doo Shik Sin of Seoul (KR)

OPTICAL SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18256558 titled 'OPTICAL SYSTEM

Simplified Explanation

The optical system described in the patent application consists of a series of eight lenses arranged along an optical axis, with each lens having specific refractive powers and surface curvatures. The seventh lens has the thickest center thickness among all lenses.

• First to eighth lenses arranged along optical axis
• First lens has positive refractive power and convex object-side surface
• Second lens has negative refractive power and concave sensor-side surface
• Sixth lens has at least one surface with an inflection point
• Seventh lens has positive refractive power and convex sensor-side surface
• Eighth lens has negative refractive power and surfaces with at least one inflection point
• Center thickness of seventh lens may be the thickest among all lenses

Potential Applications

The optical system described in the patent application could be used in various imaging devices such as cameras, telescopes, microscopes, and other optical instruments.

Problems Solved

This optical system addresses the challenge of achieving high-quality imaging with a series of lenses by optimizing the arrangement and properties of each lens to reduce aberrations and improve overall image quality.

Benefits

The benefits of this optical system include improved image quality, reduced aberrations, and enhanced performance in imaging applications.

Potential Commercial Applications

The technology described in the patent application could be valuable in the development of high-quality camera lenses, medical imaging devices, and scientific instruments where precise optical performance is essential.

Possible Prior Art

One possible prior art for this technology could be the design of complex lens systems in high-end camera lenses or scientific instruments, where multiple lenses are used to achieve specific optical properties and performance.

Unanswered Questions

How does the thickness of the seventh lens impact the overall performance of the optical system?

The thickness of the seventh lens may play a crucial role in controlling aberrations and optimizing image quality, but the specific impact of this parameter on the system's performance is not detailed in the abstract.

What are the specific applications where the inflection points on the lens surfaces are most beneficial?

The presence of inflection points on certain lens surfaces is mentioned in the abstract, but the specific advantages or applications of this feature are not elaborated upon.

Original Abstract Submitted

An optical system disclosed in the embodiment of the invention includes a first lens to an eighth lenses which are sequentially arranged along an optical axis in a direction from the object side to the sensor side, wherein the first lens has a positive refractive power and has a convex object-side surface, the second lens has a negative refractive power and a concave sensor-side surface, at least one of an object-side and sensor-side surfaces of the sixth lens has an inflection point, the seventh lens has positive refractive power and has a convex sensor-side surface, the eighth lens has negative refractive power, and the object-side surface and the sensor-side surface of the eighth lens have at least one an inflection point, and a center thickness of the seventh lens may be the thickest among center thicknesses of the first to eighth lenses.