TRANSMIT-RECEIVE SWITCH WITH HARMONIC DISTORTION REJECTION AND ELECTROSTATIC DISCHARGE PROTECTION

Organization Name

apple inc.

Inventor(s)

Saihua Lin of Santa Clara CA (US)

TRANSMIT-RECEIVE SWITCH WITH HARMONIC DISTORTION REJECTION AND ELECTROSTATIC DISCHARGE PROTECTION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240356577 titled 'TRANSMIT-RECEIVE SWITCH WITH HARMONIC DISTORTION REJECTION AND ELECTROSTATIC DISCHARGE PROTECTION

Simplified Explanation: The patent application aims to improve the efficiency of a transceiver by reducing insertion loss and interference while enhancing overall performance.

• The transceiver includes isolation circuitry with harmonic distortion rejection circuitry, an electrostatic discharge filter, an out-of-band noise filter, and/or a matching network.
• The harmonic distortion rejection circuitry allows a second harmonic signal to pass from the power amplifier of a transmitter to ground, reducing interference.
• The electrostatic discharge filter provides a path to ground for electrostatic discharge, while the out-of-band noise filter does the same for noise signals.
• The isolation circuitry effectively removes or decreases interference caused by unwanted signals, leading to reduced power consumption and improved operating efficiency of the transceiver.

Key Features and Innovation: - Isolation circuitry with harmonic distortion rejection - Electrostatic discharge filter - Out-of-band noise filter - Matching network for improved performance

Potential Applications: - Wireless communication systems - Telecommunications equipment - Radio frequency devices

Problems Solved: - Interference reduction - Improved efficiency - Enhanced signal quality

Benefits: - Reduced insertion loss - Enhanced performance - Lower power consumption

Commercial Applications: Potential commercial applications include: - Mobile devices - Base stations - Satellite communication systems

Prior Art: Prior art related to this technology may include research on harmonic distortion rejection circuits and noise filtering in transceivers.

Frequently Updated Research: Stay updated on advancements in isolation circuitry, harmonic distortion rejection, and noise filtering technologies for transceivers.

Questions about Transceiver Efficiency: 1. How does the harmonic distortion rejection circuitry improve the performance of the transceiver? 2. What are the potential commercial applications of this technology in the telecommunications industry?

Original Abstract Submitted

embodiments disclosed herein relate to reducing insertion loss in a transceiver while improving an operating efficiency of the transceiver. to do so, the transceiver may include isolation circuitry with harmonic distortion rejection circuitry, an electrostatic discharge filter, an out-of-band noise filter, and/or a matching network. in particular, the harmonic distortion rejection circuitry may enable a second harmonic signal to pass from a power amplifier of a transmitter of the transceiver to ground. the electrostatic discharge filter may also provide a path to ground for electrostatic discharge, and the out-of-band noise filter may provide a path to ground for noise signals. the isolation circuitry may substantially remove or decrease interference caused by undesirable signals while reducing a power consumption and thus improving an operating efficiency of the transceiver.