18574205. HIGH TEMPERATURE WIRELESS TRANSCEIVER FOR AUTOMOTIVE AND OFF-ROAD AUTOMOTIVE APPLICATIONS simplified abstract (Eaton Intelligent Power Limited)

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HIGH TEMPERATURE WIRELESS TRANSCEIVER FOR AUTOMOTIVE AND OFF-ROAD AUTOMOTIVE APPLICATIONS

Organization Name

Eaton Intelligent Power Limited

Inventor(s)

Rohit Tejsingh Chauhan of Pune (IN)

Steven Lee Hum of Minnetonka MN (US)

HIGH TEMPERATURE WIRELESS TRANSCEIVER FOR AUTOMOTIVE AND OFF-ROAD AUTOMOTIVE APPLICATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18574205 titled 'HIGH TEMPERATURE WIRELESS TRANSCEIVER FOR AUTOMOTIVE AND OFF-ROAD AUTOMOTIVE APPLICATIONS

Simplified Explanation: A high temperature radio frequency transceiver utilizing a MEMS oscillator is designed to operate in environments with temperatures up to 105 degrees Celsius.

Key Features and Innovation:

  • Utilizes a MEMS oscillator to overcome high temperature limitations of standard RF transceivers.
  • Operates at a junction temperature of up to 125 degrees Celsius.
  • Suitable for applications where ambient temperatures reach up to 105 degrees Celsius.
  • Ideal for mounting on hydraulic valves, engine components, or automotive vehicles.

Potential Applications: The high temperature RF transceiver can be used in various applications such as:

  • Hydraulic valves and manifolds
  • Engine components
  • Automotive vehicles
  • Off-road automotive vehicles

Problems Solved: This technology addresses the following specific problems:

  • High temperature limitations of standard RF transceivers
  • Limited operating temperature range in harsh environments

Benefits: The benefits of this technology include:

  • Improved performance in high temperature environments
  • Enhanced reliability and durability
  • Expanded range of applications in harsh conditions

Commercial Applications: Potential commercial uses of this technology include:

  • Industrial automation
  • Automotive industry
  • Aerospace applications

Questions about High Temperature RF Transceivers: 1. What are the key advantages of using a MEMS oscillator in high temperature RF transceivers? 2. How does the operating temperature range of this technology compare to traditional crystal oscillator-based RF transceivers?


Original Abstract Submitted

A microelectromechanical system (MEMS) oscillator is used in a high temperature radio frequency (RF) transceiver (e.g., a high temperature wireless transceiver) to overcome high temperature limitations of a standard RF transceiver that utilizes a crystal oscillator. The design of the high temperature RF transceiver enables it to operate at a junction temperature of up to 125 degrees Celsius making it suitable to applications where an ambient temperature of up to 105 degrees Celsius occurs. Example applications include those where the high temperature RF transceiver is mounted on a hydraulic valve, on a hydraulic valve manifold, on or a near an engine, or on a chassis of an automotive vehicle or off-road automotive vehicle.

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