18498852. BUFFER CIRCUIT, SEMICONDUCTOR DEVICE, AND SIGNAL PROCESSING SYSTEM INCLUDING SEMICONDUCTOR DEVICE simplified abstract (SK hynix Inc.)

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BUFFER CIRCUIT, SEMICONDUCTOR DEVICE, AND SIGNAL PROCESSING SYSTEM INCLUDING SEMICONDUCTOR DEVICE

Organization Name

SK hynix Inc.

Inventor(s)

Ji Hyo Kang of Icheon-si Gyeonggi-do (KR)

Hyun Bae Lee of Icheon-si Gyeonggi-do (KR)

BUFFER CIRCUIT, SEMICONDUCTOR DEVICE, AND SIGNAL PROCESSING SYSTEM INCLUDING SEMICONDUCTOR DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18498852 titled 'BUFFER CIRCUIT, SEMICONDUCTOR DEVICE, AND SIGNAL PROCESSING SYSTEM INCLUDING SEMICONDUCTOR DEVICE

The abstract describes a buffer circuit that includes various components such as resistors, inductors, and a variable capacitance circuit to adjust capacitance values based on adjustment signals.

  • The buffer circuit consists of a first resistor, first inductor set, second resistor, and second inductor set connected between power source terminals and input terminals.
  • A first variable capacitance circuit is connected between nodes and adjusts capacitance values based on adjustment signals.
  • The circuit is designed to provide buffering and signal conditioning functions in electronic systems.
  • The variable capacitance circuit allows for precise adjustment of capacitance values to optimize circuit performance.
  • The buffer circuit can be used in various applications such as signal processing, communication systems, and power electronics.

Potential Applications: - Signal processing systems - Communication systems - Power electronics

Problems Solved: - Signal distortion - Signal loss - Inefficient power transfer

Benefits: - Improved signal quality - Enhanced circuit performance - Increased efficiency in power transfer

Commercial Applications: Title: "Advanced Buffer Circuit for Enhanced Signal Processing" This technology can be utilized in various commercial applications such as: - Telecommunications equipment - Audio amplifiers - Power supply units

Questions about Buffer Circuit: 1. How does the variable capacitance circuit in the buffer circuit contribute to signal optimization? 

  - The variable capacitance circuit adjusts capacitance values based on adjustment signals to optimize signal performance.

2. What are the main advantages of using a buffer circuit in electronic systems? 

  - The buffer circuit helps prevent signal distortion, loss, and improves power transfer efficiency.


Original Abstract Submitted

A buffer circuit may include a buffer unit including a first resistor connected between a power source terminal and a first node, a first inductor set connected between the first node and a first input terminal, a second resistor connected between the power source terminal and a second node, and a second inductor set connected between the second node and a second input terminal, and a first variable capacitance circuit connected between the first node and the second node, and configured to adjust a first capacitance value according to a plurality of first adjustment signals.

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