AMPLIFIER CAPABLE OF CANCELING LEAKAGE COMPONENTS

Organization Name

SAMSUNG ELECTRONICS CO., LTD.

Inventor(s)

Kyunghyun Yoon of Suwon-si (KR)

Jeongyeol Bae of Suwon-si (KR)

Jongsoo Lee of Suwon-si (KR)

Sangmin Yoo of Suwon-si (KR)

AMPLIFIER CAPABLE OF CANCELING LEAKAGE COMPONENTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18216766 titled 'AMPLIFIER CAPABLE OF CANCELING LEAKAGE COMPONENTS

Simplified Explanation

The amplifier described in the patent application includes a configuration of transistors and a switch that work together to amplify differential input signals and produce differential output signals. Here are the key points of the invention:

• The amplifier includes a first-first (1-1) transistor and a first-second (1-2) transistor for receiving differential input signals.
• It also includes a second-first (2-1) transistor and a second-second (2-2) transistor for generating the differential output signals.
• A switch is connected to the transistors and is designed to turn on based on the state of the transistors to control the amplification process effectively.

Potential Applications: - This technology could be used in audio amplifiers, signal processing circuits, and communication systems where differential signals need to be amplified accurately.

Problems Solved: - The amplifier solves the problem of efficiently amplifying and processing differential signals while maintaining signal integrity and minimizing noise.

Benefits: - Improved signal amplification accuracy, reduced noise interference, and enhanced overall performance of electronic systems utilizing the amplifier.

Potential Commercial Applications: - The technology could be applied in high-fidelity audio equipment, medical devices, telecommunications infrastructure, and industrial automation systems.

Possible Prior Art: - Prior art may include similar amplifier configurations used in audio amplifiers, instrumentation amplifiers, and communication systems.

Unanswered Questions: 1. How does the amplifier handle variations in input signal levels to ensure consistent output signal quality? 2. Are there any specific design considerations for integrating this amplifier into different types of electronic devices or systems?

Original Abstract Submitted

Disclosed is an amplifier that includes a first-first (1-1) transistor and a first-second (1-2) transistor to which differential input signals are applied to gate terminals, respectively; a second-first (2-1) transistor including: one end connected to the 1-1 transistor, a gate terminal configured to receive an operating signal, and the other end configured to output one of differential output signals; a second-second (2-2) transistor including: one end connected to the 1-2 transistor, a gate terminal configured to receive the operating signal, and the other end configured to output the other one of the differential output signals; and a switch connected to one end of the 1-1 transistor and one end of the 1-2 transistor. The switch is configured to turn on based on the 1-1 transistor, the 1-2 transistor, the 2-1 transistor, and the 2-2 transistor being turned off.