INPUT BUFFER CIRCUIT

Organization Name

taiwan semiconductor manufacturing co., ltd.

Inventor(s)

Yu-Kai Tsai of Hsinchu (TW)

Chia-Hui Chen of Hsinchu (TW)

Chia-Jung Chang of Hsinchu (TW)

INPUT BUFFER CIRCUIT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240097662 titled 'INPUT BUFFER CIRCUIT

Simplified Explanation

The abstract describes an integrated circuit that includes threshold circuits for enabling signals and a control circuit that responds to changes in these signals by adjusting the output voltage signal. The control circuit includes a regenerative circuit to maintain the output voltage signal while switches are in a disconnected state.

• The integrated circuit includes an upper threshold circuit and a lower threshold circuit for setting logic levels of enabling signals.
• The control circuit changes the output voltage signal based on consecutive changes in the logic levels of the enabling signals.
• A regenerative circuit in the control circuit ensures the output voltage signal is maintained when switches are disconnected.

Potential Applications

This technology could be applied in various electronic devices where precise control of output voltage signals is required, such as power management systems, sensors, and communication devices.

Problems Solved

This innovation solves the problem of efficiently managing and adjusting output voltage signals in response to changing enabling signals, ensuring stable and reliable operation of electronic circuits.

Benefits

The integrated circuit offers improved accuracy and responsiveness in adjusting output voltage signals, leading to enhanced performance and reliability of electronic devices. It also simplifies the design of control circuits by incorporating regenerative elements.

Potential Commercial Applications

• Power management systems for efficient energy utilization
• Sensor devices for accurate data collection
• Communication devices for reliable signal processing

Possible Prior Art

One possible prior art could be the use of separate threshold circuits and control circuits in integrated circuits to manage enabling signals and output voltage signals. However, the specific implementation of a regenerative circuit for maintaining the output voltage signal during disconnected states may be a novel aspect of this technology.

Unanswered Questions

How does this technology compare to existing voltage control methods in terms of efficiency and accuracy?

This article does not provide a direct comparison with existing voltage control methods, leaving the reader to speculate on the relative advantages and disadvantages of this technology.

What are the potential limitations or challenges in implementing this integrated circuit in practical electronic systems?

The article does not address any potential limitations or challenges that may arise when integrating this circuit into real-world electronic devices, leaving room for further exploration and analysis.

Original Abstract Submitted

an integrated circuit includes an upper threshold circuit configured to set a logic level of a first enabling signal, a lower threshold circuit configured to set a logic level of a second enabling signal, and a control circuit configured to change an output voltage signal in response to a condition that the logic level of the first enabling signal and the logic level of the second enabling signal are changed consecutively. in the control circuit, a first switch is electrically connected to a second switch at a buffer output node. the control circuit includes a regenerative circuit configured to maintain the output voltage signal at the buffer output node while each of the first switch and the second switch is at a disconnected state.