Intel corporation (20240213992). Digital-to-analog converter and method for amplitude and skew error correction in the digital-to-analog converter simplified abstract
Contents
- 1 Digital-to-analog converter and method for amplitude and skew error correction in the digital-to-analog converter
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 Digital-to-analog converter and method for amplitude and skew error correction in the digital-to-analog converter - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Key Features and Innovation
- 1.6 Potential Applications
- 1.7 Problems Solved
- 1.8 Benefits
- 1.9 Commercial Applications
- 1.10 Prior Art
- 1.11 Frequently Updated Research
- 1.12 Questions about DAC Error Correction
- 1.13 Original Abstract Submitted
Digital-to-analog converter and method for amplitude and skew error correction in the digital-to-analog converter
Organization Name
Inventor(s)
Daniel Gruber of St. Andrae (AT)
Michael Kalcher of Villach (AT)
Martin Clara of Santa Clara CA (US)
Digital-to-analog converter and method for amplitude and skew error correction in the digital-to-analog converter - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240213992 titled 'Digital-to-analog converter and method for amplitude and skew error correction in the digital-to-analog converter
Simplified Explanation
This patent application describes a method for correcting errors in a digital-to-analog converter (DAC) by using a correction DAC to adjust the output of the main DAC based on error data.
- The DAC includes a main DAC with multiple cells, a cell error determination circuit, a correction DAC, and a combiner.
- The cell error determination circuit identifies amplitude and/or skew errors in each cell of the main DAC and generates error data.
- The correction DAC generates an error signal based on the error data.
- The combiner combines the error signal with the main DAC output to correct errors in the DAC.
Key Features and Innovation
- Correction of amplitude and/or skew errors in a DAC.
- Use of a correction DAC to adjust the output of the main DAC based on error data.
- Cell error determination circuit to identify errors in individual DAC cells.
Potential Applications
- High-precision audio equipment.
- Signal processing applications.
- Communication systems.
Problems Solved
- Correcting errors in DAC output.
- Improving accuracy and precision in analog signal generation.
Benefits
- Enhanced accuracy in analog signal conversion.
- Improved performance of DAC systems.
- Reduction of errors in signal processing.
Commercial Applications
- High-end audio equipment manufacturing.
- Telecommunications industry for signal processing.
- Instrumentation and measurement devices.
Prior Art
Prior art related to this technology may include patents or research papers on error correction in DAC systems, precision analog signal processing, and digital signal processing techniques.
Frequently Updated Research
Research on error correction algorithms for DAC systems. Studies on the impact of error correction on signal quality in analog systems.
Questions about DAC Error Correction
How does error correction in a DAC improve signal quality?
Error correction in a DAC helps to minimize inaccuracies in the analog output signal, resulting in higher fidelity and precision in signal reproduction.
What are the potential challenges in implementing error correction in DAC systems?
Challenges may include the complexity of error detection algorithms, calibration requirements, and the additional circuitry needed for error correction.
Original Abstract Submitted
a digital-to-analog converter (dac) and a method for correcting amplitude and/or skew error in a dac. the dac includes a main dac, cell error determination circuit, a correction dac, and a combiner. the main dac includes a plurality of dac cells. the cell error determination circuit is configured to determine an amplitude error and/or a skew error of each of the plurality of dac cells and generate error data of the dac based on the input data to the dac cells. the correction dac is configured to generate an error signal based on the error data. the combiner is configured to combine the error signal with an output of the main dac.