17918630. LIGHT-EMITTING SUBSTRATE AND MANUFACTURING METHOD THEREOF, AND LIGHT-EMITTING APPARATUS simplified abstract (BOE TECHNOLOGY GROUP CO., LTD.)

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LIGHT-EMITTING SUBSTRATE AND MANUFACTURING METHOD THEREOF, AND LIGHT-EMITTING APPARATUS

Organization Name

BOE TECHNOLOGY GROUP CO., LTD.

Inventor(s)

Yang Zhang of Beijing (CN)

Bin Zhou of Beijing (CN)

Ning Liu of Beijing (CN)

Jun Liu of Beijing (CN)

Peng Wang of Beijing (CN)

Lei Zhou of Beijing (CN)

Duoduo Wang of Beijing (CN)

LIGHT-EMITTING SUBSTRATE AND MANUFACTURING METHOD THEREOF, AND LIGHT-EMITTING APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17918630 titled 'LIGHT-EMITTING SUBSTRATE AND MANUFACTURING METHOD THEREOF, AND LIGHT-EMITTING APPARATUS

Simplified Explanation

The light-emitting substrate described in the patent application includes a substrate with at least one coupling portion and at least one auxiliary cathode pattern. Each auxiliary cathode region has a coupling portion and an auxiliary cathode pattern with at least one disconnection portion, consisting of first, second, and third conductive pattern layers. The second conductive pattern layer's edge projection on the substrate is within the edge projections of the third and first conductive pattern layers. The total perimeter of the third conductive pattern layer's edge projection on the substrate in the disconnection portion is greater than the perimeter of the auxiliary cathode region's edge projection on the substrate.

  • The light-emitting substrate includes a substrate, coupling portions, and auxiliary cathode patterns.
  • Each auxiliary cathode region has a disconnection portion with three conductive pattern layers.
  • The second conductive pattern layer's edge projection is within the edge projections of the first and third conductive pattern layers.
  • The total perimeter of the third conductive pattern layer's edge projection is greater than the perimeter of the auxiliary cathode region's edge projection.

Potential Applications

The technology described in the patent application could be used in:

  • LED displays
  • OLED lighting panels
  • Electronic signage

Problems Solved

This technology addresses issues related to:

  • Improving light emission efficiency
  • Enhancing the durability of light-emitting substrates
  • Reducing manufacturing costs

Benefits

The benefits of this technology include:

  • Higher quality light output
  • Increased lifespan of light-emitting devices
  • Cost-effective production processes

Potential Commercial Applications

The potential commercial applications of this technology could be in:

  • Consumer electronics
  • Automotive lighting systems
  • Architectural lighting solutions

Possible Prior Art

One possible prior art related to this technology is the use of multi-layered conductive patterns in light-emitting substrates to improve performance and efficiency.

Unanswered Questions

How does this technology compare to existing light-emitting substrate designs?

This article does not provide a direct comparison with other light-emitting substrate designs in terms of performance, efficiency, or cost-effectiveness.

What specific industries or sectors could benefit the most from this technology?

The article does not specify which industries or sectors could see the greatest advantages from implementing this technology, leaving room for further exploration and analysis.


Original Abstract Submitted

A light-emitting substrate includes: a substrate; and at least one coupling portion and at least one auxiliary cathode pattern disposed on the substrate. Each auxiliary cathode region is provided with a coupling portion and an auxiliary cathode pattern coupled to the coupling portion. The auxiliary cathode pattern includes at least one disconnection portion, and each disconnection portion includes first, second and third conductive pattern layers. An orthographic projection of an edge of the second conductive pattern layer on the substrate is located within orthographic projections of edges of the third and first conductive pattern layers on the substrate. A total perimeter of at least one orthographic projection, on the substrate, of at least one edge of at least one third conductive pattern layer in the at least one disconnection portion is greater than a perimeter of an orthographic projection of an edge of the auxiliary cathode region on the substrate.