18624945. OPTICAL PULSE ADJUSTING DEVICE, METHOD OF OPERATION THEREOF, AND SUPERCONTINUUM GENERATING DEVICE INCLUDING THEREOF simplified abstract (Electronics and Telecommunications Research Institute)
OPTICAL PULSE ADJUSTING DEVICE, METHOD OF OPERATION THEREOF, AND SUPERCONTINUUM GENERATING DEVICE INCLUDING THEREOF
Organization Name
Electronics and Telecommunications Research Institute
Inventor(s)
Seungyoung Lim of Daejeon (KR)
Young Jin Jung of Daejeon (KR)
OPTICAL PULSE ADJUSTING DEVICE, METHOD OF OPERATION THEREOF, AND SUPERCONTINUUM GENERATING DEVICE INCLUDING THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 18624945 titled 'OPTICAL PULSE ADJUSTING DEVICE, METHOD OF OPERATION THEREOF, AND SUPERCONTINUUM GENERATING DEVICE INCLUDING THEREOF
Simplified Explanation: The patent application describes an optical pulse adjusting device that can adjust the optical spectrum shape of an input signal based on an optical frequency comb signal.
Key Features and Innovation:
- Pulse shaper adjusts the optical spectrum shape of the input signal.
- Optical amplifier amplifies the spectrum adjustment signal.
- Optical spectrum analyzer compares the optical spectrum shape with a target shape.
- Control circuit adjusts the optical spectrum shape based on the comparison signal.
Potential Applications: This technology can be used in telecommunications, optical signal processing, and optical networking applications.
Problems Solved: This technology addresses the need for precise control and adjustment of optical pulse shapes in optical communication systems.
Benefits:
- Improved signal quality and accuracy.
- Enhanced performance of optical communication systems.
- Increased efficiency in optical signal processing.
Commercial Applications: Optical pulse adjusting devices can be used in telecommunications companies, research institutions, and optical networking companies to improve signal quality and performance.
Prior Art: Readers can explore prior art related to optical pulse shaping devices, optical amplifiers, and optical spectrum analyzers in the field of optical communication systems.
Frequently Updated Research: Stay updated on the latest advancements in optical pulse shaping technology, optical amplification techniques, and optical spectrum analysis methods to enhance the performance of optical communication systems.
Questions about Optical Pulse Adjusting Devices: 1. How does the optical pulse adjusting device improve signal quality in optical communication systems? 2. What are the potential commercial applications of optical pulse adjusting devices in the telecommunications industry?
Original Abstract Submitted
Disclosed is an optical pulse adjusting device including a pulse shaper that receives an input signal generated based on an optical frequency comb (OFC) signal and outputs a spectrum adjustment signal by adjusting an optical spectrum shape of the input signal, an optical amplifier that outputs an optical amplification signal by amplifying the spectrum adjustment signal, an optical spectrum analyzer (OSA) that outputs an information signal by comparing an optical spectrum shape of the optical amplification signal with a target optical spectrum shape, and a control circuit that outputs a comparison signal based on the information signal. The pulse shaper further receives the comparison signal and adjusts the optical spectrum shape of the input signal based on information about a difference between the optical spectrum shape of the optical amplification signal and the target optical spectrum shape, which is included in the comparison signal.
