Intel corporation (20240348218). DUAL FEEDBACK CONTINUOUS TIME LINEAR EQUALIZER simplified abstract
Contents
DUAL FEEDBACK CONTINUOUS TIME LINEAR EQUALIZER
Organization Name
Inventor(s)
Saurabh Anmadwar of Nagpur (IN)
DUAL FEEDBACK CONTINUOUS TIME LINEAR EQUALIZER - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240348218 titled 'DUAL FEEDBACK CONTINUOUS TIME LINEAR EQUALIZER
The abstract describes an amplifier circuit that includes an amplification stage to amplify an input signal and generate an output signal, a first feedback stage to modify the output signal based on a first feedback voltage derived from the input signal voltage, and a second feedback stage to modify the output signal using a second feedback voltage generated from the current response to the input signal.
- The amplifier circuit comprises an amplification stage for amplifying input signals.
- A first feedback stage generates a first feedback voltage based on the input signal voltage and modifies the output signal accordingly.
- A second feedback stage generates a second feedback voltage based on the current response to the input signal and modifies the output signal using this voltage.
Potential Applications: - Audio amplification systems - Signal processing equipment - Communication devices
Problems Solved: - Improved signal amplification - Enhanced feedback mechanisms - Increased circuit efficiency
Benefits: - Higher quality output signals - Better control over amplification levels - Enhanced performance in various applications
Commercial Applications: Title: "Advanced Amplifier Circuits for High-Fidelity Audio Systems" This technology can be used in high-end audio equipment, professional sound systems, and telecommunications devices, enhancing their performance and overall sound quality.
Questions about the technology: 1. How does the first feedback stage impact the overall performance of the amplifier circuit? 2. What are the advantages of using a second feedback stage in signal amplification circuits?
Original Abstract Submitted
an amplifier circuit, comprising an amplification stage, is configured to amplify an input signal, and to generate an output signal as the amplified input signal; a first feedback stage, configured to generate a first feedback voltage based on a voltage of the input signal, and to modify the output signal by the first feedback voltage; and a second feedback stage, configured to generate a second feedback voltage based on a current generated in response to the input signal, and to modify the output signal using the second feedback voltage.