Qualcomm incorporated (20240222872). MILLIMETER WAVE ANTENNA TUNER simplified abstract
MILLIMETER WAVE ANTENNA TUNER
Organization Name
Inventor(s)
Chuan Wang of San Diego CA (US)
Bhushan Shanti Asuri of San Diego CA (US)
Kevin Hsi-Huai Wang of San Diego CA (US)
Gurkanwal Singh Sahota of Rancho Santa Fe CA (US)
MILLIMETER WAVE ANTENNA TUNER - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240222872 titled 'MILLIMETER WAVE ANTENNA TUNER
The abstract discusses designs and techniques for manufacturing microelectronic antenna tuners, with an example microelectronic antenna system including a radio frequency integrated circuit with multiple signal ports and tuning devices, an antenna element on a substrate, and feedlines for communication.
- Radio frequency integrated circuit with signal ports and tuning devices
- Antenna element on a substrate
- Feedlines for communication between components
- Manufacturing techniques for microelectronic antenna tuners
- Design considerations for efficient antenna systems
Potential Applications: - Wireless communication systems - Satellite communication - Radar systems - IoT devices - Mobile devices
Problems Solved: - Improving antenna performance - Enhancing signal reception and transmission - Miniaturization of antenna systems - Tuning flexibility for different frequencies - Integration of antennas into small devices
Benefits: - Improved signal quality - Enhanced communication range - Compact and efficient antenna systems - Versatile tuning capabilities - Integration into various electronic devices
Commercial Applications: Title: "Microelectronic Antenna Tuners: Commercial Applications and Market Implications" Description: This technology can be utilized in the development of advanced wireless communication devices, satellite systems, radar equipment, IoT devices, and mobile phones. The market implications include improved performance, increased efficiency, and expanded applications in various industries.
Questions about Microelectronic Antenna Tuners: 1. How do microelectronic antenna tuners differ from traditional antenna tuning methods?
- Microelectronic antenna tuners offer more compact and integrated solutions compared to traditional bulky tuning systems.
2. What are the key advantages of using microelectronic antenna tuners in wireless communication devices?
- The advantages include improved signal quality, enhanced range, and versatile tuning capabilities.
Original Abstract Submitted
designs and techniques for manufacturing microelectronic antenna tuners are provided. an example microelectronic antenna system includes a radio frequency integrated circuit comprising a plurality of radio frequency signal ports disposed in a first area, a plurality of tuning devices disposed in a second area of the radio frequency integrated circuit, at least one antenna element disposed on a substrate coupled to the radio frequency integrated circuit, and at least one feedline disposed in the substrate and configured to communicatively couple the at least one antenna element, at least one of the plurality of tuning devices, and one of the plurality of radio frequency signal ports.