18282914. CAPACITOR BOARD UNIT AND POWER CONVERSION DEVICE simplified abstract (Mitsubishi Electric Corporation)
Contents
CAPACITOR BOARD UNIT AND POWER CONVERSION DEVICE
Organization Name
Mitsubishi Electric Corporation
Inventor(s)
Hiroaki Takahashi of Tokyo (JP)
Yasuhiko Kitamura of Tokyo (JP)
CAPACITOR BOARD UNIT AND POWER CONVERSION DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18282914 titled 'CAPACITOR BOARD UNIT AND POWER CONVERSION DEVICE
The abstract of the patent application states that the total DC resistance from the positive power supply terminal to each positive load terminal and from the negative power supply terminal to each negative load terminal is less than the sum of the DC resistance between the positive power supply terminal and the positive load terminal, and the DC resistance between the negative power supply terminal and the negative load terminal. Additionally, the inductance between the positive load terminal and the negative load terminal through the positive smoothing terminals, wirings, capacitors, and negative smoothing terminals is smaller than the sum of the inductance values from the positive power supply terminal to the positive load terminal and from the negative power supply terminal to the negative load terminal.
- Key Features and Innovation:
- Lower total DC resistance from power supply terminals to load terminals. - Reduced inductance between load terminals through smoothing components.
- Potential Applications:
- Power supply systems - Electronic circuits - Electrical equipment
- Problems Solved:
- Minimizing resistance and inductance in power supply connections.
- Benefits:
- Improved efficiency in power transmission - Enhanced performance of electronic devices
- Commercial Applications:
- Power supply manufacturers - Electronics industry
- Prior Art:
- No information provided on prior art related to this technology.
- Frequently Updated Research:
- Ongoing research on reducing resistance and inductance in power supply systems.
Questions about the technology:
- Question 1: How does this innovation impact the design of power supply systems?
- Answer: This innovation allows for more efficient power transmission and improved performance in electronic devices by reducing resistance and inductance in the connections.
- Question 2: What are the potential cost-saving implications of this technology in the electronics industry?
- Answer: By optimizing power supply connections, this technology can lead to cost savings in manufacturing and operation of electronic devices.
Original Abstract Submitted
The sum of the DC resistance value from the positive power supply terminal to each positive load terminal and the DC resistance value from the negative power supply terminal to each negative load terminal is smaller than the sum of the DC resistance value between the positive power supply terminal and the positive load terminal and the DC resistance value between the negative power supply terminal and the negative load terminal. In addition, the inductance value between the positive load terminal and the negative load terminal through the positive smoothing terminals, the wirings, the capacitors, and the negative smoothing terminals is smaller than the sum of the inductance values from the positive power supply terminal to the positive load terminal and from the negative power supply terminal to the negative load terminal.