18579639. COMMUNICATION DEVICE AND COMMUNICATION SYSTEM simplified abstract (SONY SEMICONDUCTOR SOLUTIONS CORPORATION)
Contents
COMMUNICATION DEVICE AND COMMUNICATION SYSTEM
Organization Name
SONY SEMICONDUCTOR SOLUTIONS CORPORATION
Inventor(s)
Toshihisa Hyakudai of San Diego CA (US)
COMMUNICATION DEVICE AND COMMUNICATION SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 18579639 titled 'COMMUNICATION DEVICE AND COMMUNICATION SYSTEM
Simplified Explanation: The patent application describes communication devices and systems that have low power consumption and high speed. These devices can switch between different states to optimize communication efficiency.
- The communication device includes a state switching control circuit that manages the transition between different states, such as establishing synchronization, starting communication, intermittently stopping communication, and stopping communication for longer periods.
- There are two communication control units - one that transmits a signal during a specific section in one state, and another that transmits a signal synchronized with a received signal to the communication partner device.
- The state switching control circuit ensures smooth transitions between states, improving overall communication performance.
Key Features and Innovation:
- Efficient state switching control circuit for optimized communication.
- Low power consumption and high-speed communication.
- Synchronization of signals for effective data transmission.
Potential Applications:
- IoT devices
- Wireless communication systems
- Mobile devices
Problems Solved:
- Power consumption optimization
- Efficient data transmission
- Synchronization of signals
Benefits:
- Improved communication efficiency
- Extended battery life for devices
- Enhanced data transmission speed
Commercial Applications: Potential commercial applications include IoT devices, wireless communication systems, and mobile devices. This technology can be beneficial for companies looking to improve communication efficiency and reduce power consumption in their devices.
Prior Art: Readers can explore prior art related to low power communication devices and systems in the field of wireless communication technologies and IoT devices.
Frequently Updated Research: Researchers are constantly working on improving the efficiency and speed of communication devices, so staying updated on the latest advancements in the field is crucial for understanding the full potential of this technology.
Questions about Communication Devices with Low Power Consumption and High Speed:
1. What are the key advantages of using communication devices with low power consumption and high speed?
- Communication devices with low power consumption and high speed offer improved efficiency, extended battery life, and faster data transmission, making them ideal for various applications in the IoT and wireless communication sectors.
2. How does the state switching control circuit in these communication devices contribute to their overall performance?
- The state switching control circuit allows for seamless transitions between different communication states, optimizing the efficiency of data transmission and power consumption in the devices.
Original Abstract Submitted
Communication devices and systems with low power consumption and high speed are disclosed. In one example, a communication device includes: a state switching control circuit that controls switching between a first state in which synchronization is established with a communication partner device, a second state in which communication is started, a third state in which the communication is intermittently stopped, and a fourth state in which the communication is stopped for a longer period than the third state. A first communication control unit transmits a first signal during a first signal section in the fourth state, and a second communication control unit transmits a third signal synchronized with a received second signal to the communication partner device. When the second communication control unit transmits the third signal, the state switching control circuit causes the communication device to transition from the fourth state to the first state.