ELECTRONIC DEVICE AND METHOD FOR AMPLIFYING TRANSMISSION SIGNAL IN TIME DIVISION DUPLEX SCHEME

Organization Name

samsung electronics co., ltd.

Inventor(s)

Junghwan Moon of Suwon-si (KR)

Youngyoon Woo of Suwon-si (KR)

Minsik Jun of Suwon-si (KR)

ELECTRONIC DEVICE AND METHOD FOR AMPLIFYING TRANSMISSION SIGNAL IN TIME DIVISION DUPLEX SCHEME - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240204737 titled 'ELECTRONIC DEVICE AND METHOD FOR AMPLIFYING TRANSMISSION SIGNAL IN TIME DIVISION DUPLEX SCHEME

Simplified Explanation

The patent application describes an electronic device with a processor, power amplifier, power supply, crest factor reduction (CFR) module, and digital predistortion (DPD) module. The device adjusts the state of these modules based on voltage information to optimize radio frequency signal transmission.

• The electronic device includes a processor, power amplifier, power supply, CFR module, and DPD module.
• The processor transmits RF signals, adjusts module states based on voltage information, and generates RF signals from baseband signals.
• The device optimizes signal transmission by dynamically changing module states.

Key Features and Innovation

• Dynamic adjustment of CFR and DPD modules based on voltage information.
• Optimization of RF signal transmission through state changes in modules.
• Efficient utilization of power supply for improved signal quality.

Potential Applications

• Wireless communication devices.
• Telecommunication infrastructure.
• Radar systems.
• Satellite communication systems.

Problems Solved

• Inefficient power usage in RF signal transmission.
• Suboptimal signal quality due to static module states.
• Lack of adaptability in electronic devices for varying voltage conditions.

Benefits

• Enhanced signal quality.
• Improved power efficiency.
• Adaptability to changing voltage conditions.

Commercial Applications

Optimizing RF Signal Transmission in Electronic Devices

This technology can be utilized in the development of advanced wireless communication devices, telecommunication infrastructure, radar systems, and satellite communication systems. By dynamically adjusting the states of CFR and DPD modules based on voltage information, companies can improve signal quality and power efficiency in their products, leading to better performance and customer satisfaction.

Questions about the Technology

How does the dynamic adjustment of module states improve signal transmission quality?

The dynamic adjustment of module states allows the electronic device to adapt to changing voltage conditions, optimizing RF signal transmission for improved quality and efficiency.

What are the potential challenges in implementing this technology in commercial electronic devices?

Implementing this technology in commercial electronic devices may require significant integration and testing to ensure seamless operation and compatibility with existing systems. Additionally, companies may need to invest in research and development to tailor the technology to specific applications and market demands.

Original Abstract Submitted

an electronic device may include: a processor; a power amplifier; a power supply configured to supply power to the power amplifier; a crest factor reduction (cfr) module; and a digital predistortion (dpd) module, wherein the processor is configured to: transmit a first radio frequency (rf) signal, based on a first state of each of the cfr module, the dpd module, and the power supply, in a first transmission interval, the first rf signal being generated from a first baseband signal; identify voltage information of a second rf signal associated with a second transmission interval after the first transmission interval; change a state of each of the cfr module, the dpd module, and the power supply from the first state to a second state, based on the voltage information, in a first reception interval between the first transmission interval and the second transmission interval; and transmit the second rf signal generated from a second baseband signal based on the second state of each of the cfr module, the dpd module, and the power supply, in the second transmission interval.