17381006. INTEGRATED CIRCUIT WITH NANOSHEET TRANSISTORS WITH METAL GATE PASSIVATION simplified abstract (TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.)

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INTEGRATED CIRCUIT WITH NANOSHEET TRANSISTORS WITH METAL GATE PASSIVATION

Organization Name

TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.

Inventor(s)

Mao-Lin Huang of Hsinchu (TW)

Lung-Kun Chu of Hsinchu (TW)

Chung-Wei Hsu of Hsinchu (TW)

Jia-Ni Yu of Hsinchu (TW)

Kuo-Cheng Chiang of Hsinchu (TW)

Kuan-Lun Cheng of Hsinchu (TW)

Chih-Hao Wang of Hsinchu (TW)

INTEGRATED CIRCUIT WITH NANOSHEET TRANSISTORS WITH METAL GATE PASSIVATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 17381006 titled 'INTEGRATED CIRCUIT WITH NANOSHEET TRANSISTORS WITH METAL GATE PASSIVATION

Simplified Explanation

The abstract describes a method for processing an integrated circuit that involves forming gate all around transistors of both N-type and P-type. The method includes depositing a metal gate layer for the P-type transistors and forming a passivation layer simultaneously with the metal gate layer.

  • The method involves forming gate all around transistors, which provides improved control over the flow of electrical current.
  • Both N-type and P-type transistors are included in the integrated circuit, allowing for a wider range of functionality.
  • A metal gate layer is deposited specifically for the P-type transistors, enhancing their performance.
  • The passivation layer is formed in-situ with the metal gate layer, simplifying the manufacturing process and reducing costs.

Potential Applications

This technology can be applied in various fields where integrated circuits are used, including:

  • Consumer electronics
  • Telecommunications
  • Automotive industry
  • Medical devices
  • Industrial automation

Problems Solved

The method described in the patent application solves several problems associated with integrated circuit processing, such as:

  • Lack of control over electrical current flow in traditional transistor designs
  • Limited functionality due to the absence of both N-type and P-type transistors
  • Performance limitations of P-type transistors without a metal gate layer
  • Complex and costly manufacturing processes for forming passivation layers

Benefits

The use of this technology offers several benefits:

  • Improved control and efficiency of electrical current flow
  • Enhanced functionality and versatility of integrated circuits
  • Higher performance of P-type transistors with the addition of a metal gate layer
  • Simplified manufacturing process and reduced costs due to in-situ formation of the passivation layer


Original Abstract Submitted

A method for processing an integrated circuit includes forming N-type and P-type gate all around transistors and core gate all around transistors. The method deposits a metal gate layer for the P-type transistors. The method forms a passivation layer in-situ with the metal gate layer of the P-type transistor.

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