INTEGRATED CIRCUIT INCLUDING EFUSE CELL

Organization Name

Taiwan Semiconductor Manufacturing Co., Ltd.

Inventor(s)

Meng-Sheng Chang of Hsinchu County (TW)

Yao-Jen Yang of Hsinchu County (TW)

INTEGRATED CIRCUIT INCLUDING EFUSE CELL - A simplified explanation of the abstract

This abstract first appeared for US patent application 18156978 titled 'INTEGRATED CIRCUIT INCLUDING EFUSE CELL

Simplified Explanation

The abstract describes an integrated circuit that includes a transistor and two fuse elements. The transistor is formed in a conductive layer, while the fuse elements are formed in a separate conductive layer. One fuse element is connected between the transistor and a first data line, and the other fuse element is connected between the transistor and a second data line. Both fuse elements are located on the same side of the transistor.

• The integrated circuit includes a transistor, two fuse elements, and conductive layers.
• The transistor is formed in a first conductive layer.
• The first fuse element is formed in a second conductive layer and connected to the transistor and a first data line.
• The second fuse element is formed in the second conductive layer and connected to the transistor and a second data line.
• Both fuse elements are located on the same side of the transistor.

Potential Applications:

• This integrated circuit design can be used in various electronic devices, such as smartphones, tablets, and computers.
• It can be applied in memory devices, processors, and other integrated circuits that require fuse elements for programming or configuration purposes.

Problems Solved:

• The integrated circuit design provides a compact and efficient way to incorporate fuse elements into a circuit.
• The placement of the fuse elements on the same side of the transistor simplifies the circuit layout and reduces the overall size of the integrated circuit.

Benefits:

• The compact design of the integrated circuit saves space and allows for more components to be integrated into a smaller area.
• The efficient placement of the fuse elements reduces the complexity of the circuit layout and improves manufacturing efficiency.
• The use of fuse elements enables programming or configuration of the integrated circuit, enhancing its versatility and functionality.

Original Abstract Submitted

An integrated circuit includes a transistor, a first fuse element and a second fuse element. The transistor is formed in a first conductive layer. The first fuse element is formed in a second conductive layer and coupled between the transistor and a first data line. The second fuse element is formed in the second conductive layer and coupled between the transistor and a second data line. The first fuse element and the second fuse element are disposed at a same side of the transistor.