18543769. REDUCED ESR IN TRENCH CAPACITOR simplified abstract (Texas Instruments Incorporated)
Contents
- 1 REDUCED ESR IN TRENCH CAPACITOR
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 REDUCED ESR IN TRENCH CAPACITOR - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.10 How does this technology impact the overall efficiency of integrated circuits?
- 1.11 What are the potential cost implications of implementing this technology in semiconductor manufacturing?
- 1.12 Original Abstract Submitted
REDUCED ESR IN TRENCH CAPACITOR
Organization Name
Texas Instruments Incorporated
Inventor(s)
REDUCED ESR IN TRENCH CAPACITOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 18543769 titled 'REDUCED ESR IN TRENCH CAPACITOR
Simplified Explanation
The method described in the patent application involves fabricating an integrated circuit by etching trenches in a semiconductor layer, forming a trench dielectric layer over the trenches, depositing a doped polysilicon layer within the trenches, patterning the doped polysilicon layer to form a polysilicon bridge, and directing a blanket implant of a first dopant to form a contact region extending from the first surface into the semiconductor layer.
- Etching trenches in a semiconductor layer
- Forming a trench dielectric layer over the trenches
- Depositing a doped polysilicon layer within the trenches
- Patterning the doped polysilicon layer to form a polysilicon bridge
- Directing a blanket implant of a first dopant to form a contact region
Potential Applications
This technology could be applied in the manufacturing of advanced integrated circuits, particularly in the development of high-performance electronic devices.
Problems Solved
This technology helps in creating reliable and efficient connections within integrated circuits, improving overall performance and functionality.
Benefits
The method allows for the fabrication of complex integrated circuits with enhanced connectivity and performance, leading to improved functionality in electronic devices.
Potential Commercial Applications
The technology could find applications in the semiconductor industry for the production of advanced electronic devices with high-speed performance and reliability.
Possible Prior Art
One possible prior art could be the use of similar processes for fabricating integrated circuits with improved connectivity and performance.
Unanswered Questions
How does this technology impact the overall efficiency of integrated circuits?
This technology improves the efficiency of integrated circuits by enhancing connectivity and reducing resistance in the circuitry, leading to better performance.
What are the potential cost implications of implementing this technology in semiconductor manufacturing?
The implementation of this technology may involve initial investment in equipment and processes, but the long-term benefits in terms of improved performance and reliability could outweigh the costs.
Original Abstract Submitted
A method of fabricating an integrated circuit includes etching trenches in a first surface of a semiconductor layer. A trench dielectric layer is formed over the first surface and over bottoms and sidewalls of the trenches and a doped polysilicon layer is formed over the trench dielectric layer and within the trenches. The doped polysilicon layer is patterned to form a polysilicon bridge that connects to the polysilicon within the filled trenches and a blanket implant of a first dopant is directed to the polysilicon bridge and to the first surface. The blanket implant forms a contact region extending from the first surface into the semiconductor layer.