Mitsubishi electric corporation (20240251519). POWER CONVERSION DEVICE simplified abstract
POWER CONVERSION DEVICE
Organization Name
mitsubishi electric corporation
Inventor(s)
Kimiyuki Koyanagi of Tokyo (JP)
POWER CONVERSION DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240251519 titled 'POWER CONVERSION DEVICE
Simplified Explanation: The patent application describes unit converters that consist of capacitors, switching elements with flat surfaces, and connection conductors for p-pole and n-pole connections. These unit converters are designed to have cooling surfaces facing each other with a cooling device in between.
Key Features and Innovation:
- Unit converters with capacitors and switching elements
- Connection conductors for p-pole and n-pole connections
- Cooling surfaces of switching elements facing each other with a cooling device in between
Potential Applications: The technology can be used in various electronic devices and systems that require efficient cooling and energy conversion.
Problems Solved: The technology addresses the need for effective cooling of switching elements in unit converters while maintaining efficient energy conversion.
Benefits:
- Improved cooling efficiency
- Enhanced energy conversion performance
- Compact design for electronic devices
Commercial Applications: The technology can be applied in power electronics, renewable energy systems, and industrial automation for improved performance and reliability.
Prior Art: Readers can explore prior patents related to unit converters, capacitors, and cooling systems in electronic devices to understand the evolution of this technology.
Frequently Updated Research: Stay updated on advancements in power electronics, energy conversion technologies, and cooling systems to enhance the application of this innovation.
Questions about Unit Converters: 1. What are the key components of unit converters described in the patent application? 2. How does the positioning of the cooling surfaces in the unit converters contribute to their efficiency?
Original Abstract Submitted
unit converters each comprises a capacitor, a switching element having a flat surface on one side, a p-pole connection conductor where a second terminal hole at one end for fixing an electrode corresponding to a p-pole of the switching element and a first terminal hole at the other end for fixing a terminal of the capacitor are formed, and an n-pole connection conductor where a second terminal hole at one end for fixing an electrode corresponding to a n-pole of the switching element and a first terminal hole at the other end for fixing a terminal of the capacitor are formed. the unit-converters each including the connection conductors arranged to overlap in the thickness direction with their insulation maintained make the cooling surfaces of the switching elements be opposed to each other with a cooling device therebetween.