MICRO SYSTEM COMPRISING A PLURALITY OF FUNCTIONAL CELLS

Organization Name

ams-OSRAM International GmbH

Inventor(s)

Thomas Schwarz of Regensburg (DE)

MICRO SYSTEM COMPRISING A PLURALITY OF FUNCTIONAL CELLS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18559123 titled 'MICRO SYSTEM COMPRISING A PLURALITY OF FUNCTIONAL CELLS

Simplified Explanation:

The patent application describes a microsystem consisting of functional cells that are electrically connected. Each functional cell falls into one of four categories: energy generating, energy storing, energy conducting, or energy consuming. These cells are housed in electrically insulating materials with specific electrical connection areas for each cell.

• The microsystem includes functional cells that are electrically connected.
• Functional cells are categorized as energy generating, energy storing, energy conducting, or energy consuming.
• Each cell is housed in an electrically insulating material with specific electrical connection areas.

Key Features and Innovation:

• Integration of different types of functional cells in a microsystem.
• Standardized housing dimensions for functional cells.
• Specific electrical connection areas for each functional cell.

Potential Applications:

The technology could be applied in:

• Renewable energy systems
• Wearable technology
• Internet of Things (IoT) devices

Problems Solved:

• Efficient energy generation and storage in a compact system.
• Standardization of housing dimensions for functional cells.
• Simplified electrical connections for different types of functional cells.

Benefits:

• Increased energy efficiency.
• Compact and versatile design.
• Easy integration into various devices and systems.

Commercial Applications:

Title: "Innovative Microsystem Technology for Energy Management"

This technology could be used in:

• Smartphones and other portable electronics.
• Smart home devices.
• Industrial automation systems.

Prior Art:

Readers can explore prior art related to microsystems, energy management, and functional cell integration in electronic devices.

Frequently Updated Research:

Stay updated on the latest advancements in microsystem technology, energy management, and functional cell integration for various applications.

Questions about Microsystem Technology: 1. How does this technology improve energy efficiency in electronic devices? 2. What are the potential challenges in scaling up this microsystem technology for industrial applications?

Original Abstract Submitted

A microsystem includes a plurality of functional cells at least partially electrically coupled to each other. Each functional cell is formed by one of the following cell types: electric energy generating cell; electric energy storing cell; electric energy conducting cell; and electric energy consuming cell. Each functional cell includes: a housing of an electrically insulating material, the housings of each two functional cells having the same dimensions; at least one first electrical connection area and at least one second electrical connection area; and a functional element arranged inside the housing with electrical connection of the at least one first electrical connection area and the at least one second electrical connection area.