POWER EFFICIENT COMPLEMENTARY AMPLIFIER AND METHOD THEREOF

Organization Name

REALTEK SEMICONDUCTOR CORP.

Inventor(s)

Chia-Liang (Leon) Lin of Fremont CA (US)

POWER EFFICIENT COMPLEMENTARY AMPLIFIER AND METHOD THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 18182439 titled 'POWER EFFICIENT COMPLEMENTARY AMPLIFIER AND METHOD THEREOF

The method described in the patent application involves receiving an input signal and transforming it into two different signals with specific common-mode voltages. These signals are then processed to adjust bias voltages accordingly before being amplified using specific types of amplifiers.

• The input signal is transformed into a first signal with a common-mode voltage equal to a first bias voltage and a second signal with a common-mode voltage equal to a second bias voltage.
• Peaks and valleys of the transformed signals are detected to adjust the bias voltages accordingly.
• The first transformed signal is amplified using an N-type cascode amplifier, while the second transformed signal is amplified using a P-type cascode amplifier.

Potential Applications: - Signal processing in communication systems - Audio amplification in electronic devices - Sensor signal conditioning in industrial applications

Problems Solved: - Efficient amplification of signals with specific common-mode voltages - Precise adjustment of bias voltages based on signal characteristics

Benefits: - Improved signal quality and accuracy - Enhanced performance of amplification circuits - Increased efficiency in signal processing

Commercial Applications: Title: "Advanced Signal Processing Technology for Enhanced Amplification" This technology can be utilized in telecommunications equipment, audio devices, and industrial sensors to improve signal processing and amplification capabilities, leading to better overall performance and reliability in various applications.

Questions about the technology: 1. How does this technology improve signal processing efficiency? - The technology optimizes bias voltages based on signal characteristics, leading to more accurate and efficient signal amplification. 2. What are the key advantages of using N-type and P-type cascode amplifiers in this context? - N-type and P-type cascode amplifiers offer high gain and low output impedance, making them suitable for amplifying signals with specific common-mode voltages.

Original Abstract Submitted

A method operates by receiving an input signal; transforming the input signal into a first transformed signal of a common-mode voltage equal to a first bias voltage; transforming the input signal into a second transformed signal of a common-mode voltage equal to a second bias voltage; detecting a peak of the first transformed signal and making the first bias voltage equal to a sum of a first DC (direct current) voltage and a first dynamic voltage; detecting a valley of the second transformed signal and making the second bias voltage equal to a sum of a second DC voltage and a second dynamic voltage; amplifying the first transformed signal into a first output signal across a first load using a N-type cascode amplifier; and amplifying the second transformed signal into a second output signal across a second load using a P-type cascode amplifier.