Samsung electronics co., ltd. (20240322755). OSCILLATORS HAVING COMPARATORS THEREIN WITH IMPROVED COMMON MODE VARIATION ACROSS A WIDE RANGE OF PROCESS-VOLTAGE-TEMPERATURE (PVT) CHANGES simplified abstract
OSCILLATORS HAVING COMPARATORS THEREIN WITH IMPROVED COMMON MODE VARIATION ACROSS A WIDE RANGE OF PROCESS-VOLTAGE-TEMPERATURE (PVT) CHANGES
Organization Name
Inventor(s)
Shubham Raj Singh of Bengaluru (IN)
Ravindra Kumar Singh of Bengaluru (IN)
Subodh Prakash Taigor of Bengaluru (IN)
OSCILLATORS HAVING COMPARATORS THEREIN WITH IMPROVED COMMON MODE VARIATION ACROSS A WIDE RANGE OF PROCESS-VOLTAGE-TEMPERATURE (PVT) CHANGES - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240322755 titled 'OSCILLATORS HAVING COMPARATORS THEREIN WITH IMPROVED COMMON MODE VARIATION ACROSS A WIDE RANGE OF PROCESS-VOLTAGE-TEMPERATURE (PVT) CHANGES
The abstract describes an oscillator with first and second comparators, each connected to impedance networks with trim elements to improve common mode variation.
- The oscillator includes first and second comparators.
- A first impedance network with a trim element is connected to the first comparator.
- A second impedance network with a trim element is connected to the second comparator.
- The impedance networks improve common mode variation in the comparators.
- Trimming the trim elements enhances the performance of the oscillator.
Potential Applications: - Oscillators in electronic devices - Signal processing circuits - Communication systems
Problems Solved: - Common mode variation in comparators - Oscillator stability and accuracy
Benefits: - Improved performance of oscillators - Enhanced stability and accuracy in electronic circuits
Commercial Applications: Title: Enhanced Oscillators for Improved Electronic Systems This technology can be used in various electronic devices, communication systems, and signal processing circuits to enhance performance and accuracy, leading to better overall system functionality.
Questions about Oscillator Technology: 1. How does common mode variation affect the performance of oscillators? Common mode variation can introduce errors and instability in the output signals of oscillators, affecting the overall accuracy and reliability of electronic systems.
2. What role do trim elements play in improving the common mode variation in comparators? Trim elements in the impedance networks allow for precise adjustments to be made, optimizing the performance of the comparators and reducing common mode variation.
Original Abstract Submitted
an oscillator includes first and second comparators, a first impedance network having a first trim element therein, and a second impedance network having a second trim element therein. the first impedance network is electrically connected to a first input terminal of the first comparator, and the second impedance network is electrically connected to a first input terminal of the second comparator. the first and second impedance networks are configured to cause an improvement in common mode variation within the first and second comparators, in response to trimming of at least one of the first and second trim elements.
