18523269. CLOCK MONITORING CIRCUIT simplified abstract (SAMSUNG ELECTRONICS CO., LTD.)
Contents
CLOCK MONITORING CIRCUIT
Organization Name
Inventor(s)
Youngbin Kwon of Suwon-si (KR)
CLOCK MONITORING CIRCUIT - A simplified explanation of the abstract
This abstract first appeared for US patent application 18523269 titled 'CLOCK MONITORING CIRCUIT
The patent application describes a clock monitoring circuit that can detect ultra-high frequency signals in a clock selection signal.
- Clock enable signal generator produces ultra-high frequency clock enable signal based on control signal and reference clock signal.
- Ultra-high frequency detector determines if selection clock signal is ultra-high frequency based on clock enable signal and reference clock signal.
Potential Applications: - High-speed data processing systems - Telecommunications equipment - Radar systems
Problems Solved: - Ensures accurate detection of ultra-high frequency signals - Improves efficiency in processing high-speed data
Benefits: - Enhanced performance in systems requiring ultra-high frequency signal detection - Increased reliability in clock monitoring circuits
Commercial Applications: Title: "Ultra-High Frequency Clock Monitoring Circuit for High-Speed Systems" This technology can be used in high-speed data processing systems, telecommunications equipment, and radar systems to improve signal detection and processing efficiency.
Prior Art: No prior art information provided in the abstract.
Frequently Updated Research: No information on frequently updated research provided in the abstract.
Questions about Clock Monitoring Circuit:
Question 1: How does the clock enable signal generator determine the ultra-high frequency clock enable signal? Answer: The clock enable signal generator generates the ultra-high frequency clock enable signal based on the control signal and the reference clock signal.
Question 2: What are the potential benefits of using this clock monitoring circuit in radar systems? Answer: The potential benefits include improved accuracy in detecting ultra-high frequency signals, leading to enhanced performance and reliability in radar systems.
Original Abstract Submitted
A clock monitoring circuit includes a clock enable signal generator configured to generate an ultra-high frequency clock enable signal based on a clock enable control signal and a reference clock signal, and an ultra-high frequency detector configured to generate an ultra-high frequency determination signal indicating whether a selection clock signal is an ultra-high frequency signal, based on the selection clock signal, the ultra-high frequency clock enable signal, and the reference clock signal.
