CAPACITOR, IN PARTICULAR DC LINK CAPACITOR FOR A MULTI-PHASE SYSTEM

Organization Name

Robert Bosch GmbH

Inventor(s)

Johannes Ruthardt of Stuttgart (DE)

CAPACITOR, IN PARTICULAR DC LINK CAPACITOR FOR A MULTI-PHASE SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18443294 titled 'CAPACITOR, IN PARTICULAR DC LINK CAPACITOR FOR A MULTI-PHASE SYSTEM

The abstract describes a capacitor with two surface electrodes, each having capacitor structures connected to different regions of the electrodes. One region is on the base side of the capacitor, while the other is on the upper side facing away from the base.

• The capacitor includes two surface electrodes with capacitor structures connected to different regions of each electrode.
• One region of the surface electrode is on the base side of the capacitor, while the other region is on the upper side facing away from the base.
• The capacitor design allows for efficient electrical connection and distribution of charge between the electrodes.

Potential Applications: - Energy storage systems - Electronic circuits - Power supplies

Problems Solved: - Efficient charge distribution - Enhanced electrical connectivity - Compact design for space-constrained applications

Benefits: - Improved capacitor performance - Enhanced energy storage capabilities - Compact and versatile design

Commercial Applications: Title: "Advanced Capacitor Technology for Enhanced Energy Storage" This technology can be used in various industries such as consumer electronics, automotive, and renewable energy sectors. It can improve the efficiency and performance of energy storage systems, leading to better overall product performance and reliability.

Questions about Capacitor Technology: 1. How does this capacitor design improve charge distribution compared to traditional designs?

  This design allows for more efficient electrical connection between the electrodes, leading to improved charge distribution and overall capacitor performance.
  

2. What are the potential cost implications of implementing this advanced capacitor technology in commercial applications?

  The initial investment in implementing this technology may be higher, but the long-term benefits in terms of improved energy storage and performance can outweigh the costs.

Original Abstract Submitted

A capacitor including a surface electrode and a further surface electrode. A first capacitor structure is arranged between a first region of the surface electrode and a further first region of the further surface electrode. The first capacitor structure is electrically connected to the first region of the surface electrode and to the further first region of the further surface electrode. The first region of the surface electrode is arranged on a base side of the capacitor. The further first region of the further surface electrode is arranged on an upper side of the capacitor facing away from the base side. A second capacitor structure is arranged between a second region of the surface electrode and a further second region of the further surface electrode. The second capacitor structure is electrically connected to the second region of the surface electrode and the further second region of the further surface electrode.