ADAPTIVE IMPEDANCE TUNING FOR CAPACITIVE INTERCONNECTS

Organization Name

Meta Platforms Technologies, LLC

Inventor(s)

Wenjing Su of Mountain View CA (US)

Md Rashidul Islam of Fremont CA (US)

Juan Manuel Martinez of Redmond WA (US)

Jiang Zhu of Cupertino CA (US)

Huan Liao of San Jose CA (US)

Yonghua Wei of San Diego CA (US)

Geng Ye of Union City CA (US)

Bruno Cendon Martin of Palo Alto CA (US)

ADAPTIVE IMPEDANCE TUNING FOR CAPACITIVE INTERCONNECTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17936394 titled 'ADAPTIVE IMPEDANCE TUNING FOR CAPACITIVE INTERCONNECTS

Simplified Explanation

The disclosed system includes a detachable capsule with a capsule-side capacitive plate, a receiving antenna connected to an antenna-side capacitive plate, and a capacitive sensor connected to the capsule-side capacitive plate. The system transmits RF signals between the two plates and detects capacitance levels. An antenna matching tuner adjusts antenna feed parameters based on capacitance measurements.

• Detachable capsule with capacitive plates
• RF signal transmission between plates
• Capacitance detection by sensor
• Antenna matching tuner adjusts parameters based on capacitance measurements

Potential Applications

This technology could be applied in various industries such as telecommunications, IoT devices, and medical devices.

Problems Solved

This technology solves the problem of optimizing antenna performance by adjusting parameters based on capacitance measurements.

Benefits

The benefits of this technology include improved antenna efficiency, better signal reception, and enhanced overall system performance.

Potential Commercial Applications

Potential commercial applications of this technology include smart home devices, wearable technology, and wireless communication systems.

Possible Prior Art

One possible prior art could be similar systems used in RFID technology for data transmission and reception.

Unanswered Questions

How does this technology impact power consumption in devices?

This article does not address the potential impact of this technology on power consumption in devices. Implementing a system like this could potentially affect power usage, so further research would be needed to understand the implications.

What are the potential security implications of using this technology?

The article does not discuss the security implications of implementing this technology. It would be important to consider how the transmission of RF signals and capacitance measurements could impact the security of the system and any sensitive data being transmitted.

Original Abstract Submitted

The disclosed system may include a detachable capsule that includes a capsule-side capacitive plate. The system may also include a receiving antenna electrically connected to an antenna-side capacitive plate, and a capacitive sensor electrically connected to the capsule-side capacitive plate. The two plates may be coupled to each other and may transmit RF signals between them. The capacitive sensor may be configured to detect an amount of capacitance between the two capacitive plates. The system may also include an antenna matching tuner electrically connected to the capacitive sensor and to an antenna feed. Then, upon receiving capacitance measurements from the capacitive sensor, the antenna matching tuner may alter various parameters of the antenna feed including impedance matching parameters. Various other apparatuses and mobile wearable devices are also disclosed.