CONVERTER

Organization Name

LG INNOTEK CO., LTD.

Inventor(s)

Ki Dong Kim of Seoul (KR)

Ui Jong Kim of Seoul (KR)

Hyung Jun Chae of Seoul (KR)

CONVERTER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18259737 titled 'CONVERTER

The abstract describes a converter with a housing containing an internal space, a printed circuit board inside the space, a first electronic component on the upper surface of the board, a second electronic component on the lower surface, and a heat dissipation space within the housing.

• The first electronic component overlaps the heat dissipation space in one direction, while the second electronic component overlaps it in a perpendicular direction.
• This design allows for efficient heat dissipation and optimal performance of the electronic components.
• The converter is likely designed to handle high power loads or operate in environments with high temperatures.
• By separating the electronic components and utilizing the heat dissipation space effectively, the converter can maintain stable operation and prevent overheating.
• This innovation could be particularly useful in industrial applications where reliable power conversion is crucial.

Potential Applications: - Industrial power supplies - Renewable energy systems - Electric vehicle charging stations

Problems Solved: - Overheating of electronic components - Ensuring stable operation under high power loads - Efficient heat dissipation in compact spaces

Benefits: - Improved reliability and longevity of electronic components - Enhanced performance under demanding conditions - Cost-effective solution for power conversion needs

Commercial Applications: Title: High-Efficiency Power Converter for Industrial Applications This technology could be utilized in various industrial settings, such as manufacturing plants, energy production facilities, and transportation infrastructure. The efficient heat dissipation design ensures reliable operation and optimal performance in demanding environments.

Questions about the technology: 1. How does the converter manage heat dissipation effectively? - The converter utilizes a heat dissipation space within the housing and strategically places the electronic components to overlap this space, allowing for efficient cooling. 2. What are the potential advantages of using this converter in industrial applications? - The converter offers improved reliability, stable operation under high power loads, and efficient heat dissipation, making it ideal for industrial settings.

Original Abstract Submitted

A converter comprises: a housing comprising an internal space; a printed circuit board disposed inside the internal space; a first electronic component disposed on the upper surface of the printed circuit board; a second electronic component disposed on the lower surface of the printed circuit board; and a heat dissipation space disposed inside the housing, wherein the first electronic component is disposed so as to overlap the heat dissipation space in a first direction, and the second electronic component is disposed so as to overlap the heat dissipation space in a second direction perpendicular to the first direction.