MICROMECHANICAL DIAPHRAGM SYSTEM

Organization Name

robert bosch gmbh

Inventor(s)

Jochen Reinmuth of Reutlingen (DE)

Christoph Schelling of Stuttgart (DE)

Thomas Buck of Tamm (DE)

MICROMECHANICAL DIAPHRAGM SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240343557 titled 'MICROMECHANICAL DIAPHRAGM SYSTEM

The abstract describes a micromechanical diaphragm system with first and second diaphragms and spacer elements between them. The spacer elements have supporting elements facing each diaphragm and are connected by a spring element.

• The system includes a first diaphragm, a second diaphragm, and spacer elements.
• Spacer elements have supporting elements facing each diaphragm.
• Supporting elements are connected by a spring element.
• The design allows for controlled movement and flexibility of the diaphragms.
• This system can be used in various microelectromechanical systems (MEMS) applications.

Potential Applications: - Pressure sensors - Acoustic transducers - Microphones - Accelerometers

Problems Solved: - Provides precise control over diaphragm movement - Enables efficient sensing and actuation in MEMS devices

Benefits: - Enhanced sensitivity and accuracy in sensing applications - Improved performance and reliability of MEMS devices

Commercial Applications: Title: "Advanced Micromechanical Diaphragm Systems for MEMS Applications" This technology can be utilized in the development of high-performance MEMS devices for industries such as healthcare, automotive, and consumer electronics.

Questions about Micromechanical Diaphragm Systems: 1. How does the spring element contribute to the functionality of the diaphragm system?

  - The spring element allows for controlled movement and flexibility of the diaphragms, enhancing their performance in various applications.

2. What are the key advantages of using a micromechanical diaphragm system in MEMS devices?

  - The system provides precise control over diaphragm movement, leading to improved sensing and actuation capabilities in MEMS applications.

Original Abstract Submitted

a micromechanical diaphragm system including a first diaphragm and a second diaphragm and spacer elements which are arranged between the first diaphragm and the second diaphragm. at least one spacer element has a first supporting element and a second supporting element. the first supporting element faces the first diaphragm. the second supporting element faces the second diaphragm. the first supporting element and the second supporting element are connected via a spring element.