HEAT CONTROLLED SWITCH

Organization Name

Taiwan Semiconductor Manufacturing Co., Ltd.

Inventor(s)

Yu-Wei Ting of Taipei (TW)

Kuo-Pin Chang of Hsinchu (TW)

Hung-Ju Li of Hsinchu (TW)

Kuo-Ching Huang of Hsinchu (TW)

HEAT CONTROLLED SWITCH - A simplified explanation of the abstract

This abstract first appeared for US patent application 17834944 titled 'HEAT CONTROLLED SWITCH

Simplified Explanation

The patent application describes a semiconductor device that includes a heater element, a conductor material with programmable conductivity, and an insulator layer. The device can be programmed by applying voltage differences to the heater element and conductor material, controlling the capacitance between them.

• The semiconductor device has a heater element that generates heat when current flows through it.
• A conductor material with programmable conductivity is included in the device.
• An insulator layer separates the heater element and conductor material.
• The conductor material can be programmed by applying voltage differences to it and the heater element.
• The voltage differences control the capacitance between the conductor material and heater element.
• The capacitance is lower when the conductor material is being programmed compared to when it is not being programmed.

Potential Applications

• This technology can be used in electronic devices that require precise control over capacitance.
• It can be applied in sensors, actuators, and other devices that rely on programmable conductivity.
• The semiconductor device can be used in communication systems, computing devices, and various other electronic applications.

Problems Solved

• The technology solves the problem of controlling capacitance in semiconductor devices.
• It provides a solution for programming the conductivity of a conductor material.
• The device offers a way to adjust capacitance based on the programming state of the conductor material.

Benefits

• The semiconductor device allows for precise control over capacitance, enhancing the performance of electronic devices.
• The programmable conductivity of the conductor material provides flexibility in device design and functionality.
• The technology offers a cost-effective solution for adjusting capacitance in semiconductor devices.

Original Abstract Submitted

A semiconductor device is disclosed. The semiconductor device includes a semiconductor substrate, and a heater element on the semiconductor substrate, the heater element configured to generate heat in response to a current flowing therethrough. The semiconductor device also includes a conductor material having a programmable conductivity, and an insulator layer between the heater element and the conductor material, where the conductor material is configured to be programmed by applying one or more voltage differences to one or more of the heater element and the conductor material, and where a capacitance between the conductor material and the heater element is configured to be controlled by the voltage differences such that the capacitance is lower while the conductor material is being programmed than while the conductor material is not being programmed.