18200145. OPTICAL CHANNEL-BASED ELECTRONIC SYSTEMS AND OPERATING METHODS THEREOF simplified abstract (SAMSUNG ELECTRONICS CO., LTD.)
Contents
OPTICAL CHANNEL-BASED ELECTRONIC SYSTEMS AND OPERATING METHODS THEREOF
Organization Name
Inventor(s)
Hanyeoreum Bae of Suwon-si (KR)
Myoungsoo Jung of Suwon-si (KR)
OPTICAL CHANNEL-BASED ELECTRONIC SYSTEMS AND OPERATING METHODS THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 18200145 titled 'OPTICAL CHANNEL-BASED ELECTRONIC SYSTEMS AND OPERATING METHODS THEREOF
Simplified Explanation
The abstract describes an electronic system that uses optical signals to transmit and receive internal data.
- The system includes a light emitter that generates a first optical signal.
- A first device receives the first optical signal and outputs a second optical signal representing a transmission value based on the first signal.
- A second device receives the second optical signal and adjusts the light intensity to output a third optical signal, reading the transmission value based on the light intensity.
- A third device receives the third optical signal and reads the transmission value based on the light intensity.
Potential Applications:
- Data transmission in secure environments
- Optical communication systems
- High-speed data transfer
Problems Solved:
- Secure data transmission
- Efficient data transfer
- Reduced electromagnetic interference
Benefits:
- Enhanced data security
- Faster data transfer speeds
- Lower interference compared to traditional electronic systems
Original Abstract Submitted
An electronic system for transmitting and receiving internal data through an optical channel. The electronic system may include a light emitter configured to generate a first optical signal, a first device configured to receive the first optical signal and including a transmitter configured to output a second optical signal representing a transmission value based on the first optical signal, a second device including a first receiver configured to receive the second optical signal from the first device and output a third optical signal by adjusting a light intensity of the second optical signal, and configured to read the transmission value based on the light intensity of the second optical signal, and a third device including a second receiver configured to receive the third optical signal from the second device, and configured to read the transmission value based on a light intensity of the third optical signal.